CN105042797A - Control method for wall-mounted inverter air-conditioner - Google Patents

Abstract

The invention discloses a control method for a wall-mounted inverter air-conditioner. The control method comprises the steps: when a received air-conditioner control instruction is a refrigeration energy conservation and comfort instruction, and when the current room temperature is not lower than a preset room environment temperature threshold, the inverter air-conditioner is controlled to operate according to an original inverter control mode of the inverter air-conditioner; or else, a compressor target frequency calculated according to the original inverter control mode is obtained, and the compressor target frequency is judged to be smaller than a first preset compressor frequency or not; if yes, a compressor is controlled to operate with the first preset compressor frequency, and an outdoor fan is controlled to operate with a preset rotation speed; and if not, the compressor and the outdoor fan are controlled to operate according to the original inverter control mode. In the original inverter control mode, room temperature PID (Proportion Integration Differentiation) control or fuzzy control is performed on the compressor, and room temperature is compensated during room temperature PID control. By adopting the control method, the energy-saving performance and refrigeration comfort of the air-conditioner are improved.

Description

A kind of wall-hanging transducer air conditioning control method

Technical field

The invention belongs to air-conditioning technique field, specifically, relate to a kind of wall-hanging transducer air conditioning control method.

Background technology

In hot summer, utilize convertible frequency air-conditioner can freeze to room air, for user builds a nice and cool environment.But convertible frequency air-conditioner power consumption is very large, often becomes the power consumption electrical equipment that family is main.

In order to reduce the power consumption of convertible frequency air-conditioner, there is a kind of control method for frequency conversion air conditioner in prior art, by detecting outdoor environment temperature, from the some compressor operating frequencies preset, select the preset compressor running frequency corresponding with outdoor environment temperature, utilize preset compressor running frequency to control convertible frequency air-conditioner.Outdoor environment temperature is lower, and corresponding preset compressor frequency is also lower.

Above-mentioned control method using outdoor environment temperature as control according to parameter, do not consider the impact of user place indoor environment temperature, thus cannot carry out regulating fast, accurately according to indoor environment temperature, be difficult to ensure convertible frequency air-conditioner to the adjustment of indoor environment temperature, and then affect indoor user to indoor environment temperature comfortableness requirement.And preset compressor running frequency is directly proportional to outdoor environment temperature, if outdoor environment temperature is low to moderate certain value, preset compressor running frequency also can be very low.When compressor operating frequency is low to moderate certain numerical value, can not play any refrigeration, now, although power consumption is low, pure power consumption, do not play the running of refrigeration, Energy Efficiency Ratio is extremely low, and energy-saving effect is poor.

In addition, although existing convertible frequency air-conditioner can control compressor operating frequency, it controls, according to the indoor objects temperature being only indoor temperature and setting, can not change air conditioning exhausting temperature.And for reaching fast-refrigerating, existing air-conditioned leaving air temp will far below design temperature, air conditioning exhausting temperature is low, and the wind of blowout is cold wind.Cold wind blows on the person, feels very uncomfortable, and flu of easily catching a cold.Blast-cold air-blowing flu of catching a cold all is afraid of more by a lot of family, takes air-ventilating garments daytime and blows air-conditioning, opens air-conditioning at night, while be covered with thick cotton-wadded quilt, think and this prevents air conditioner disease when sleep.But cold air can enter human body from respiratory tract, the time of blowing has been grown and has still had that mouth and nose are dry, the cold symptoms such as to have sore throat, and fundamentally can not solve the uncomfortable problem of refrigeration.

On the other hand, to indoor temperature regulate comfortableness and energy saving be evaluate two important indicators of household air-conditioner quality at present.If indoor temperature to be adjusted to the overlong time of design temperature, user cannot place oneself in the midst of the environment with suitable design temperature fast, causes the comfortableness of user's using air-condition device to decline.Because the power consumption of current air-conditioner in various household electrical appliance tops the list, air-conditioner energy consumption is high, and electrical network power consumption is serious, especially in summer, often causes serious severe power shortage due to the use of air-conditioner.

Thus, the temperature how improving air-conditioner regulates comfortableness and reduces the power consumption of air-conditioner, is the focus and emphasis of air-conditioner industry research always.

Summary of the invention

The object of this invention is to provide a kind of wall-hanging transducer air conditioning control method, improve the energy-conservation of air-conditioner and refrigeration comfortableness.

For achieving the above object, the present invention adopts following technical proposals to be achieved:

A kind of wall-hanging transducer air conditioning control method, described method comprises:

When the airconditioning control instruction received is the comfortable instruction of refrigerated energy-saving, perform the comfortable control procedure of following refrigerated energy-saving:

Detect current indoor temperature, and make comparisons with setting indoor environment temperature threshold value;

If current indoor temperature is not less than described setting indoor environment temperature threshold value, control convertible frequency air-conditioner according to the original VFC mode operation of convertible frequency air-conditioner;

If current indoor temperature is less than described setting indoor environment temperature threshold value, obtain the compressor target frequency gone out according to described original VFC mode computation, judge whether described compressor target frequency is less than the first setting compressor frequency; If so, control described compressor to run with described first setting compressor frequency, control outdoor fan and run with setting speed; If not, described compressor and described outdoor fan is controlled according to described original VFC mode operation;

Described original VFC pattern comprises:

In refrigerating operaton process, when air-conditioning enters room temperature PID control, obtain the current indoor temperature that indoor temperature transmitter detects, as the first indoor temperature, using the difference of described first indoor temperature and setting compensation temperature as the second indoor temperature, calculate the temperature difference between described second indoor temperature and current indoor target temperature, obtain the indoor temperature difference, carry out room temperature PID computing according to the described indoor temperature difference, obtain first object frequency;

The comfort temperature of described second indoor temperature and setting is made comparisons;

If described second indoor temperature is not less than described comfort temperature, performs following room temperature PID and control:

Compressor according to described first object FREQUENCY CONTROL;

If described second indoor temperature is less than described comfort temperature, perform following fuzzy control:

Detect the coil temperature of the evaporimeter of air-conditioning, the coil pipe target temperature of described coil temperature and setting is made comparisons; If described coil temperature is greater than described coil pipe target temperature, compressor according to described first object FREQUENCY CONTROL; If described coil temperature is not more than described coil pipe target temperature, the current operation frequency of described compressor is reduced acquisition second target frequency, controls described compressor according to the smaller value in described second target frequency and described first object frequency.

Method as above, described setting compensation temperature prestores and call, corresponding with described current indoor target temperature and described current outdoor temperature compensation temperature.

Method as above,

Described setting compensation temperature is by following method call:

Described current indoor target temperature and the indoor objects temperature range prestored are made comparisons, judges the indoor objects temperature range belonging to described current indoor target temperature; Described current outdoor temperature and the outdoor temperature scope prestored are made comparisons, judges the outdoor temperature scope belonging to described current outdoor temperature; According to searching in that prestore, corresponding with indoor objects temperature range and outdoor temperature scope multiple compensation temperatures with the indoor objects temperature range belonging to described current indoor target temperature and the corresponding compensation temperature of the outdoor temperature scope belonging to described current outdoor temperature as described setting compensation temperature, and call.

Method as above, if described coil temperature is not more than described coil pipe target temperature first after described convertible frequency air-conditioner start, described second target frequency is the refrigeration minimum frequency of setting; If described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, described second target frequency is between described current operation frequency and described refrigeration minimum frequency.

Method as above, if described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, described second target frequency adopts following method to determine:

If described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, obtain the described current operation frequency of described compressor, described current operation frequency is reduced adjusting frequency of setting by the regulation time every setting, and the frequency after reduction is described second target frequency.

Method as above, reduces adjusting frequency after described second target frequency of setting using described current operation frequency at every turn, first judges whether the difference of described coil pipe target temperature and described coil temperature is not less than the overshoot temperature value of setting; If so, continue to perform after described regulation time arrives to adjust frequency as the process of described second target frequency described in described current operation frequency reduces, otherwise, keep described second target frequency constant.

Method as above, when performing described fuzzy control, if the smaller value in described first object frequency and described second target frequency is greater than the highest frequency of setting, then controls described compressor according to described highest frequency.

Method as above, in the comfortable control procedure of described refrigerated energy-saving, if current indoor temperature is less than described setting indoor environment temperature threshold value, and the actual motion frequency of described compressor is less than the second setting compressor frequency, the aperture controlling the electric expansion valve of air-conditioning is fixed as setting aperture, otherwise, the aperture of electronic valve according to described original VFC Schema control; Described second setting compressor frequency is greater than described first setting compressor frequency.

Method as above, in the comfortable control procedure of described refrigerated energy-saving, if current indoor temperature is less than described setting indoor environment temperature threshold value, and described compressor has run the first setting-up time with the actual motion frequency being less than described second setting compressor frequency, the actual motion frequency controlling described compressor rises to the 3rd setting compressor frequency and continuous service second setting-up time, then controls compressor with the original frequency operation before frequency rising.

Method as above, when the airconditioning control instruction received is the comfortable instruction of refrigerated energy-saving, the acquiescence airconditioning control parameter of the comfortable control of display refrigerated energy-saving; If the airconditioning control parameter reset do not detected in setting setup times, perform the comfortable control procedure of described refrigerated energy-saving according to described acquiescence airconditioning control parameter; If the airconditioning control parameter reset detected in described setting setup times, perform the comfortable control procedure of described refrigerated energy-saving according to the described airconditioning control parameter reset.

Compared with prior art, advantage of the present invention and good effect are: when the present invention performs refrigerated energy-saving comfortable control, detect indoor temperature, if indoor temperature is higher, according to original VFC Schema control convertible frequency air-conditioner, indoor environment temperature is declined fast, to reach the temperature of comfortableness; If indoor temperature is close to design temperature during low-frequency operation, the minimum operation frequency of compressor is limited, there is certain refrigerating capacity while realizing low energy consumption, maintain the balance of indoor temperature, avoid fluctuations in indoor temperature large and cause user uncomfortable; Meanwhile, when compressor limit is run frequently, control outdoor fan and run with fixing setting speed, reach the balance of refrigeration system, stablize indoor temperature further, improve the comfortableness of indoor temperature.And, in original VFC pattern, before air-conditioning enters room temperature PID control, the current indoor temperature that indoor temperature transmitter detects is not compensated, control compressor operating according to normal control mode, indoor temperature is reduced fast, ensure the comfortableness that indoor temperature regulates; When air-conditioning enters room temperature PID control, by setting comfort temperature, according to the size of indoor temperature and comfort temperature, select adopt room temperature PID to control or adopt the fuzzy control based on evaporator coil temperature, when room temperature height in time, fast room is lowered the temperature, refrigeration object can be reached, coil temperature can be stabilized in coil pipe target temperature again, make air conditioning exhausting temperature pleasant, reach cool and not cold comfortable cooling effect.And, room temperature PID is controlled, setting compensation temperature is utilized to compensate current indoor temperature, the benchmark indoor temperature that temperature after compensating controls as room temperature PID, reduce benchmark indoor temperature, make benchmark indoor temperature correspond to the actual temperature in user's main activities space closer to indoor, compressor operating frequency can be reduced, reduce energy consumption of compressor, realize energy saving.

After reading the specific embodiment of the present invention by reference to the accompanying drawings, the other features and advantages of the invention will become clearly.

Accompanying drawing explanation

Fig. 1 is the main flow chart of the wall-hanging transducer air conditioning control method of the present invention first embodiment;

Fig. 2 is the main flow chart of the wall-hanging transducer air conditioning control method of the present invention second embodiment;

Fig. 3 is a particular flow sheet of original VFC pattern in Fig. 1 and Fig. 2;

Fig. 4 is another particular flow sheet of original VFC pattern in Fig. 1 and Fig. 2;

Fig. 5 is the particular flow sheet determining the second target frequency in Fig. 4.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below with reference to drawings and Examples, the present invention is described in further detail.

Refer to Fig. 1, this figure is depicted as the main flow chart of the wall-hanging transducer air conditioning control method of the present invention first embodiment.

As shown in Figure 1, the flow process of this embodiment to the method that air-conditioner controls comprises the steps:

Step 101: receive airconditioning control instruction.

Step 102: whether the control refrigeration that determining step 101 receives is refrigerated energy-saving comfortable cooling.If NO, step 103 is performed; Otherwise, perform step 104.

User can by the instruction of convertible frequency air-conditioner control panel input airconditioning control, also airconditioning control instruction can be inputted by convertible frequency air-conditioner remote controller, can also by convertible frequency air-conditioner control of intelligent terminal, as being provided with the smart mobile phone input airconditioning control instruction of convertible frequency air-conditioner control APP.No matter adopt which kind of command input device, be provided with the specified button that refrigerated energy-saving comfortable cooling is special all on the input.User presses this button, just can trigger convertible frequency air-conditioner and enter refrigerated energy-saving comfortable running mode, realizes the not only energy-conservation but also refrigeration control that temperature adjustment is comfortable.Thus, user is facilitated whether to perform refrigerated energy-saving comfort mode from main separation.If convertible frequency air-conditioner has received and controlled button and press, and judges it is that button corresponding to refrigerated energy-saving comfortable cooling is pressed, represent that user have input the comfortable instruction of refrigerated energy-saving, then entered the comfortable instruction of refrigerated energy-saving that step 104 starts.

Step 103: if step 102 judges that received airconditioning control instruction is not the comfortable instruction of refrigerated energy-saving, then according to original VFC Schema control convertible frequency air-conditioner.Then, go to step 101, keep and receive airconditioning control instruction and judge.

Original VFC pattern refers to the control model that convertible frequency air-conditioner has before setting up refrigerated energy-saving comfort mode.Original VFC pattern not only comprises the process according to FREQUENCY CONTROL compressor operating, also comprises the aperture running, control according to the degree of superheat electric expansion valve according to user's wind speed setting control room inner blower and outdoor fan, etc.And, preferably adopt the flow process of Fig. 3 or Fig. 4 to realize to the process that compressor frequency controls in original VFC pattern, refer to the follow-up description to Fig. 3 and Fig. 4.

Step 104: if step 102 judges that received airconditioning control instruction is the comfortable instruction of refrigerated energy-saving, enter the comfortable control model of refrigerated energy-saving.First, detect current indoor temperature, make comparisons with setting indoor environment temperature threshold value.

Setting indoor environment temperature threshold value has been written in the memory of air-conditioner controller when convertible frequency air-conditioner dispatches from the factory.General, this setting indoor environment temperature threshold value is not modifiable for user, because user is difficult to implication and the function of knowing this threshold value, if revised arbitrarily by user, can increase energy consumption on the contrary, reduce refrigeration comfortableness.This threshold value can by personnel or other professionals carry out numerical value amendment by operations such as the upgradings to air-conditioner controller after sale.And, this setting indoor environment temperature threshold value be most of human body sense comparatively comfortable, a too hot temperature value can not be felt, be such as set as 28 DEG C.Current indoor temperature refers to a real time temperature of environment space current time residing for convertible frequency air-conditioner, can be detected by the temperature sensor being arranged on air-conditioning air inlet.Enter the comfortable control model of refrigerated energy-saving, detect current indoor temperature, and do comparing of size with setting indoor environment temperature threshold value.

Step 105: judge whether current indoor temperature is less than setting indoor environment temperature threshold value.If so, step 106 is performed; Otherwise, perform step 103.

If current indoor temperature is not less than setting indoor environment temperature threshold value, shows that indoor environment temperature is higher, then perform step 103, according to original VFC Schema control convertible frequency air-conditioner, can decline fast to make indoor temperature.And, in the process according to original VFC Schema control convertible frequency air-conditioner, go to step 104, continue to detect current indoor temperature, and make comparisons with setting indoor environment temperature threshold value.

Step 106: if current indoor environment temperature is less than setting indoor environment temperature threshold value, shows that indoor environment temperature is low, may be close to design temperature.And when close to design temperature, compressor will low-frequency operation.Now, the compressor target frequency gone out according to original VFC mode computation is obtained.

Step 107: whether the compressor target frequency that determining step 106 obtains is less than the first setting compressor frequency.If so, step 108 is performed; If not, show that user's design temperature is lower, current indoor temperature, still higher than user's design temperature, needs to lower the temperature further, thus, goes to step 103, according to original VFC Schema control convertible frequency air-conditioner, can decline fast to make indoor temperature.And, in the process according to original VFC Schema control convertible frequency air-conditioner, go to step 104, continue to detect current indoor temperature, and make comparisons with setting indoor environment temperature threshold value.

Step 108: if the compressor target frequency that step 106 obtains is less than the first setting compressor frequency, controls compressor and runs with the first setting compressor frequency, meanwhile, control outdoor fan and run with setting speed.

When the compressor target frequency that Practical Calculation goes out is less than the first setting compressor frequency, controls compressor and carry out low frequency limit frequently, make its compressor low-limit frequency be the first setting compressor frequency, instead of run according to the compressor target frequency that Practical Calculation goes out.

Wherein, first setting compressor frequency is that to dispatch from the factory at convertible frequency air-conditioner be the fixed frequency be written in the memory of air-conditioner controller, and this frequency is the value obtained through theoretical research and a large amount of comprehensive experiment by research staff, it is the reasonable frequency value can taking into account low energy consumption and refrigeration comfortableness.Such as, this first setting compressor frequency is 15Hz.When the compressor target frequency gone out according to original VFC mode computation is lower than 15Hz, show that real-time indoor environment temperature is close to user's design temperature, without the need to more refrigerating capacity.But run according to this frequency lower than 15Hz if control compressor, due to underfrequency, its refrigerating capacity is extremely weak, even can not play any refrigeration.Now, although compressor is low-frequency operation, still consume certain electricity, and its refrigerating capacity is extremely weak, thus causes compressor running to be now almost a pure power consumption and do not have the process of refrigeration, from Energy Efficiency Ratio angle, power consumption is large.Moreover, because compressor output is extremely weak, can not maintain the stable of indoor temperature, make fluctuations in indoor temperature large, temperature affects comfortableness after rising.And temperature rise after, need control compressor again high frequency running lower the temperature, therefore, from whole process of refrigerastion, power consumption is large.

And in this embodiment, when the compressor target frequency that Practical Calculation goes out is less than the first setting compressor frequency, controls compressor and carry out low frequency limit frequently.Compressor runs under this first setting compressor frequency, can produce and maintain the stable refrigerating capacity of indoor temperature, make indoor temperature be stabilized in user's design temperature, improve comfortableness.And because indoor temperature is stablized, compressor again high frequency fortune lengthens cycle turnover.Thus, Energy Efficiency Ratio, in whole process of refrigerastion, compressor power consumption is little, thus reduces the energy consumption of air conditioner refrigerating.

And, in this limit frequently running, control outdoor fan and run with fixing setting speed, instead of according to original VFC mode operation, the balance of whole refrigeration system can be kept when compressor limit frequency, stablize indoor temperature further, improve the comfortableness of indoor temperature.Same, setting speed is that to dispatch from the factory at convertible frequency air-conditioner be the fixed value be written in the memory of air-conditioner controller, and this value is the value obtained through theoretical research and a large amount of comprehensive experiment by research staff.

In the process performing step 108, still continue the detection and the decision process that perform step 104.

In a word, in refrigerating of convertible frequency air conditioner running, the detection of continuous execution step 101, step 102, step 104, step 105 and step 107 and decision process, meeting the control which condition is which condition just enter, just exiting corresponding control when not meeting certain condition.

Refer to Fig. 2, this figure is depicted as the flow chart of the wall-hanging transducer air conditioning control method of the present invention second embodiment.In this embodiment, the compressor of convertible frequency air-conditioner is the compressor of changeable frequency, and the electric expansion valve that to be aperture controlled of the throttle part in the refrigerating of convertible frequency air conditioner circulatory system.

As shown in Figure 2, the flow process of this embodiment to the method that convertible frequency air-conditioner controls comprises the steps:

Step 201: receive airconditioning control instruction.

Step 202: whether the control refrigeration that determining step 201 receives is refrigerated energy-saving comfortable cooling.If NO, step 203 is performed; Otherwise, perform step 204.

Step 203: if step 202 judges that received airconditioning control instruction is not the comfortable instruction of refrigerated energy-saving, then according to original VFC Schema control convertible frequency air-conditioner.Then, go to step 201, keep and receive airconditioning control instruction and judge.

Step 204: if step 202 judges that received airconditioning control instruction is the comfortable instruction of refrigerated energy-saving, enter the comfortable control model of refrigerated energy-saving.First, detect current indoor temperature, make comparisons with setting indoor environment temperature threshold value.

Step 205: judge whether current indoor environment temperature is less than setting indoor environment temperature threshold value.If so, step 206 is performed; Otherwise, perform step 203.

Step 206: if current indoor environment temperature is less than setting indoor environment temperature threshold value, obtain the compressor target frequency gone out according to original VFC mode computation.

Step 207: whether the compressor target frequency that determining step 206 obtains is less than the first setting compressor frequency.If so, step 209 is performed; Otherwise, perform step 208.

Step 208: if step 206 judges that compressor target frequency is not less than the first setting compressor frequency, then judge whether compressor target frequency is less than the second setting compressor frequency.If so, step 210 is performed; Otherwise, go to step 203, still continue the detection and the decision process that perform step 204.

Step 209: if the compressor target frequency that step 206 obtains is less than the first setting compressor frequency, controls compressor and runs with the first setting compressor frequency, meanwhile, control outdoor fan and run with setting speed.Then, step 210 is performed.

The specific implementation process of above-mentioned steps 201 to step 207 and step 209, principle and object are similar with the corresponding step of Fig. 1 embodiment, and no longer specifically set forth, details can with reference to the description of figure 1.

By step 209, add step 208 with Fig. 1 embodiment unlike, this Fig. 2 embodiment and compressor target frequency and second are set the process that compressor frequency makes comparisons.Wherein, the second setting compressor frequency is larger than the first setting compressor frequency, and such as, the first setting compressor frequency is 15Hz, then the second setting compressor frequency is 20Hz.And, to set compressor frequency similar with first, this the second setting compressor frequency is also that to dispatch from the factory at convertible frequency air-conditioner be the fixed frequency be written in the memory of air-conditioner controller, and this frequency is the value obtained through theoretical research and a large amount of comprehensive experiment by research staff, it is the reasonable frequency value can taking into account low energy consumption and refrigeration comfortableness.

Step 210: this step is transferred by step 208 and step 209, also be, as long as step 206 is less than the second setting compressor frequency according to the compressor target frequency that original VFC mode computation goes out, then control the aperture of the electric expansion valve of convertible frequency air-conditioner for setting aperture.

Wherein, setting aperture is that to dispatch from the factory at convertible frequency air-conditioner be the fixed value be written in the memory of air-conditioner controller, and this value is the value obtained through theoretical research and a large amount of comprehensive experiment by research staff.Such as, first setting compressor frequency be 15Hz, second setting compressor frequency be 20Hz time, setting aperture be 100 steps.When the compressor target frequency gone out according to original VFC mode computation is less than the second setting compressor frequency, no longer control according to the aperture of original VFC pattern to electric expansion valve, but the aperture controlling electric expansion valve is fixed.And, when compressor frequency is less than the second setting compressor frequency, this setting aperture is less than the aperture calculated according to original VFC pattern, because original control mode is the degree of superheat adjust valve, more desirably can not realize refrigeration by control valve aperture at low frequency.And this embodiment controls electric expansion valve for fixing aperture when compressor low-frequency operation, suitable refrigerating capacity can be obtained and make air conditioning exhausting proper temperature.

Step 211: judge compressor runs whether arrive the first setting-up time with the actual motion frequency being less than the second setting compressor frequency.If so, step 212 is performed; Otherwise, continue timing, until arrive the first setting-up time.

Step 212: if compressor runs arrival first setting-up time with the actual motion frequency being less than the second setting compressor frequency, the actual motion frequency controlling compressor rises to the 3rd setting compressor frequency, and continuous service second setting-up time.

Step 213: when compressor runs arrival the second setting-up time according to the 3rd setting compressor frequency, then return to the operation of the reason frequency before rising.

The object performing above-mentioned steps 211 to step 213 is to carry out protecting control to the running of compressor low frequency and continuous, avoiding the long-time low-frequency operation of compressor and damage compressor.Wherein, first setting-up time, the second setting-up time and the 3rd setting compressor frequency are all that to dispatch from the factory at convertible frequency air-conditioner be the fixed value be written in the memory of air-conditioner controller, and this value is the value obtained through theoretical research and a large amount of comprehensive experiment by research staff.Such as, the first setting-up time is 30min, and the second setting-up time is 10s, and the 3rd setting compressor frequency is 30Hz.After compressor is with the 30min that operates continuously lower than the actual motion frequency of the second setting compressor frequency 20Hz, the running frequency of enforce compression machine rises to 30Hz, and continuous service 10s.Then return to the original frequency before rising then.

In the process performing above-mentioned compressor limit frequency and low-frequency operation protection, still continue the detection and the decision process that perform step 204.

Certainly, in refrigerating of convertible frequency air conditioner running, still constantly can perform detection and the decision process of step 201, step 202, step 204, step 205, step 207 and step 208, meeting the control which condition is which condition just enter, just exiting corresponding control when not meeting certain condition.

No matter be Fig. 1 embodiment or Fig. 2 embodiment, when entering the comfortable control procedure of refrigerated energy-saving, control similar with existing convertible frequency air-conditioner, need to pre-set airconditioning control parameter, as user's design temperature, wind speed setting, air supply direction etc., the comfortable control procedure of refrigerated energy-saving will control according to these airconditioning control Parameters on Compressive machine, indoor fan, outdoor fan, wind deflector etc., meet consumers' demand.As an optimal control process, for a concrete convertible frequency air-conditioner, there is mating of a best controling parameters and control performance in the comfortable control of refrigerated energy-saving.In order to provide Optimal Control performance, before air-conditioning dispatches from the factory, the optimization control parameter realizing optimum control performance of this air-conditioning is prefixed in it stores, this optimization control parameter is airconditioning control parameter by default, at user's using air-condition and when have selected the comfortable control model of refrigerated energy-saving, Air-Conditioning Control Panel or air cnoditioner remote controller display screen demonstrate acquiescence airconditioning control parameter, understands best controling parameters for user and control benchmark.

But for meeting the individual demand of user, acquiescence airconditioning control parameter is not modifiable, and user using the default control parameters of display as with reference to benchmark, can reset controling parameters according to self-demand.

Now, after receiving airconditioning control refrigeration and be refrigerated energy-saving comfortable cooling and showing acquiescence airconditioning control parameter, if the airconditioning control parameter reset detected in setting setup times, then perform the comfortable control procedure of refrigerated energy-saving according to the airconditioning control parameter reset.And if in setting setup times, the airconditioning control parameter reset do not detected, then will perform refrigerated energy-saving comfortable control procedure according to airconditioning control parameter of submerging.

Refer to Fig. 3, this figure is depicted as a particular flow sheet of original VFC pattern in Fig. 1 and Fig. 2.

First, briefly explain the technical thought of original VFC pattern: for wall-hanging air conditioner, installation site is relatively high in room, be generally all arranged on the position on distance about 2 meters, ground.Indoor temperature transmitter air-conditioning being used for detect indoor temperature is generally positioned on air-conditioner air inlet or evaporimeter, and thus, the air themperature that indoor temperature transmitter detects is the temperature of the air of about the 2 meters At The Heights in distance ground.And in room, user's main activities Spatial General 6 R is the area of space from ground to distance about 1.35 meters, ground.According to the theory of molecular motion, cold air moves downward.So, when air-conditioner running refrigerating pattern, because cold air sinks, the temperature of upper air is also than the temperature drift of lower air.Thus the temperature drift that indoor temperature transmitter detects is in the temperature in user's main activities space.This embodiment is based on this phenomenon, and this angle of temperature itself is set out indoor, proposes a kind of air-conditioner control technology scheme taking into account the low-power consumption energy saving of thermoregulator comfortableness and air-conditioner in air conditioner chamber, and is applied in original VFC pattern.

Specifically, in original VFC pattern, the method flow of the embodiment that air-conditioner controls is comprised the steps:

Step 301: air-conditioning is started shooting, controls compressor operating.

Air-conditioning start after, by set according to user or acquiescence operational mode and operational factor, according to predetermined control program control compressor operating.

Step 302: judge whether air-conditioning enters room temperature PID and control.If so, step 304 is performed; If not, step 303 is performed.

In airconditioning control process, by according to whether entering room temperature PID to the control of compressor control to perform different control, specifically, whether room temperature PID is entered to compressor and controls to be the necessary condition determining whether to compensate indoor temperature.

Wherein, room temperature PID to control to refer to according to the temperature difference of current indoor temperature and indoor objects temperature as control objectives, performs a kind of control procedure that PID controls.And, after air-conditioning start, and non-immediate enters room temperature PID control, generally just enter PID after the certain value that has a narrow range of temperature between current indoor temperature and indoor objects temperature to control, therefore, can judge whether air-conditioner enters room temperature PID and control according to whether the temperature difference between current indoor temperature and indoor objects temperature is little to certain value.In addition, other can also to be adopted in prior art to judge, and whether air-conditioner enters the method that room temperature PID controls and judges.

Step 303: if step 302 judges that air-conditioner does not also enter room temperature PID and controls, conveniently control method controls compressor.

Also namely, control if air-conditioner does not also enter room temperature PID, then do not perform the process that indoor temperature compensates, but conveniently control method controls compressor.Wherein, conventional control methods refers to the control method of existing transducer air conditioning.Such as, the control method of existing air-conditioner is: the temperature difference between indoor temperature and indoor objects temperature is greater than when setting the temperature difference, controls compressor high frequency and runs, until the temperature difference of indoor temperature and indoor objects temperature is not more than the setting temperature difference.So, when compressor operating time does not also reach setting running time, if compressor wants high frequency to run in conventional control methods, then maintenance high frequency running status, make indoor temperature can approach indoor objects temperature fast, rapidly for user provides an indoor environment be comparatively suitable for.

Conveniently control method controls in compressor operating process, still constantly performs and judges whether air-conditioner enters the process of room temperature PID control.

Step 304: if step 302 judges that air-conditioner enters room temperature PID and controls, will compensate indoor temperature, then, utilizes the indoor temperature after compensating to calculate the compressor frequency of room temperature PID control.

Specifically, when judging that air-conditioner enters room temperature PID control, obtaining the current indoor temperature that indoor temperature transmitter detects, as the first indoor temperature, calculating the difference of the first indoor temperature and setting compensation temperature, as the second indoor temperature.

Wherein, setting compensation temperature is the temperature value prestoring, can call at any time, is also obtained by special experiment condition and the test of special test means and be written to the numerical value in accumulator for air conditioner before air-conditioning dispatches from the factory, by air-conditioning research staff.When reaching setting running time when the compressor is operating, meet condition indoor temperature being compensated to control, then obtain current indoor temperature detected by indoor temperature transmitter, using this current indoor temperature as the first indoor temperature.Then, obtain setting compensation temperature, calculate the difference of the first indoor temperature and setting compensation temperature, using this difference as the second indoor temperature.Then, step 105 is performed.

Step 305: the temperature difference calculating the second indoor temperature and indoor objects temperature, obtains the indoor temperature difference, carries out room temperature PID computing according to the indoor temperature difference, obtains compressor first object frequency.

Wherein, carry out room temperature PID computing according to the indoor temperature difference, obtain and can adopt prior art to realize to the concrete grammar of the target frequency that compressor controls.But unlike the prior art, the indoor temperature calculating the indoor temperature difference is not the temperature that indoor temperature transmitter detects, but the second indoor temperature obtained after temperature-compensating has been carried out to the temperature detected.

Step 306: whether the second indoor temperature that determining step 304 obtains is less than comfort temperature.If so, the fuzzy control of step 308 and subsequent step is performed; Otherwise the room temperature PID performing step 307 controls.

This step 306 can be carried out with step 304 and step 305 simultaneously, is divided into that to describe sequentially be only control procedure in order to clearly state this embodiment at this.After step 304 obtains the second indoor temperature, the comfort temperature of the second indoor temperature and setting is made comparisons, and judge whether the second indoor temperature is less than comfort temperature.Wherein, comfort temperature can be a default setting temperature of air-conditioning when dispatching from the factory, and also can be selected voluntarily by user and arrange design temperature.If by user's sets itself, air-conditioning can provide a reference temperature value, for reference.Such as, advise this comfort temperature to be set as 27 DEG C.

Step 307: if the second indoor temperature is not less than comfort temperature, performs room temperature PID and controls, according to first object FREQUENCY CONTROL compressor.

If step 306 judges that the second indoor temperature is not less than comfort temperature, show that now indoor temperature is higher, then perform room temperature PID and control, according to first object FREQUENCY CONTROL compressor, make indoor temperature fast cooling to indoor objects temperature.

Step 308: if the second indoor temperature is less than comfort temperature, performs fuzzy control.

If step 306 judges that indoor temperature is less than comfort temperature, cause body sense uncomfortable for avoiding the too fast decline of temperature, perform fuzzy control, so that adjustment compressor operating frequency in time, make evaporator coil temperature can be stabilized to coil pipe target temperature, to adjust air conditioning exhausting temperature, reach cool and not cold comfortable air-out effect.The process of concrete fuzzy control see step 309 below to the description of step 312.

Step 309: the coil temperature detecting evaporimeter.

The detection of the coil temperature of evaporimeter detects by set temperature sensor on evaporator coil.

Step 310: judge whether coil temperature is greater than coil pipe target temperature.If so, step 312 is performed; Otherwise, perform step 311.

After step 309 detects coil temperature, the coil pipe target temperature of coil temperature and setting is made comparisons, and judge whether coil temperature is greater than coil pipe target temperature.Wherein, coil pipe target temperature can be a default setting temperature of air-conditioning when dispatching from the factory, and can certainly be selected voluntarily by user and arrange design temperature.If by user's sets itself, because user is not very clear and definite for the concept of coil temperature and the performance indications of representative thereof, preferably provide a reference temperature value by air-conditioning, for reference selected.Such as, advise this coil pipe target temperature to be set as 14 DEG C.

Step 311: if coil temperature is not more than coil pipe target temperature, reduces acquisition second target frequency by compressor current operation frequency, controls compressor according to the smaller value in the second target frequency and first object frequency.

If step 310 judges that coil temperature is not more than coil pipe target temperature, show that coil temperature is on the low side, easily cause air conditioning exhausting temperature on the low side and send cold wind.For solving this problem, compressor current operation frequency being reduced and obtains the second target frequency.Then, compressor operating is controlled according to the smaller value in the second target frequency and first object frequency.

Compressor current operation frequency is reduced to the second target frequency, and object is that coil temperature can be approached to coil pipe target temperature.Meanwhile, consider the stability that air-conditioning system is run, make indoor temperature approach indoor objects temperature, also need to take into account the control of room temperature PID to indoor temperature.Thus, the first object frequency the second target frequency and room temperature PID calculated is made comparisons, and selects smaller value wherein to control compressor operating.

Step 312: if coil temperature is greater than coil pipe target temperature, according to first object FREQUENCY CONTROL compressor.

If step 310 judges that coil temperature is greater than coil pipe target temperature, air conditioning exhausting temperature can not be on the low side, thus, using the adjustment of room temperature as main target, according to the first object FREQUENCY CONTROL compressor operating that room temperature PID calculates.

As preferred embodiment, in this embodiment, after the fuzzy control entering into step 108, preset the highest frequency of a highest frequency as comfortable cooling, no matter be control compressor according to first object frequency or according to the second target frequency, all ensure that the frequency of compressor is no more than the highest frequency of setting.That is, if first object frequency or the second target frequency are greater than highest frequency, then control compressor operating according to highest frequency.

As previously indicated, when air-conditioner running refrigerating pattern, the temperature that indoor temperature transmitter detects is higher than the temperature in user's main activities space.If the temperature still detected according to indoor temperature transmitter participates in PID arithmetic as indoor temperature, indoor temperature difference during PID arithmetic is bigger than normal, the compressor target frequency calculated is higher, controls compressor and runs according to higher target frequency, cause air-conditioner energy consumption bigger than normal.And adopt the method for this embodiment, first the indoor temperature of detection is deducted a compensation temperature, obtain the second indoor temperature being less than the current indoor temperature of detection, and this second indoor temperature reflects the temperature in user's main activities space more realistically.When the second indoor temperature utilizing this less than normal participates in PID arithmetic, can obtain less compressor target frequency, the target frequency utilizing this less controls compressor operating, reduces energy consumption.And, because this second indoor temperature reflects the temperature in user's main activities space more realistically, thus, the indoor temperature after regulating also can be made more close to indoor design temperature, and there will not be the problem of overshoot, while satisfied temperature regulates comfortableness, reduce air-conditioner energy consumption.Meanwhile, by arranging comfort temperature, the second indoor temperature and comfort temperature being made comparisons, when indoor temperature is higher, adopts the room temperature PID after compensating to control compressor operating, make indoor temperature fast cooling and approach indoor objects temperature; And when indoor temperature is less than comfort temperature, adopt the fuzzy control based on evaporator coil temperature, select the FREQUENCY CONTROL compressor of room temperature PID or reduction, the basis approaching indoor objects temperature making indoor temperature make coil temperature approach coil pipe design temperature, both met room temperature to regulate, realize again the comfortableness of air conditioning exhausting, reach cool and not cold refrigeration.

It should be noted that, in the process performing fuzzy control, still constantly compare the size of the second indoor temperature and comfort temperature.Once indoor temperature is not less than comfort temperature, then exit fuzzy control process, be transferred to room temperature PID control procedure.

And, in whole control procedure, not compressor runs the compensation just performing indoor temperature at the beginning, but first keep compressor conveniently control strategy operation, ensure that indoor temperature can conveniently control mode, rapidly near indoor objects temperature, the speed of indoor temperature comfort conditioning can not be affected.

In the above-described embodiments, performing how many temperature-compensatings to indoor temperature, is concern the key factor that air-conditioner controls comfortableness and energy saving.Also namely, selecting of setting compensation temperature is key factor wherein.

As preferred embodiment, the setting compensation temperature prestore in air-conditioning, called at any time is a compensation temperature corresponding with indoor objects temperature and outdoor temperature.Determine setting compensation temperature based on indoor objects temperature and outdoor temperature, can realize the Reasonable Regulation And Control of function of temperature compensation control in degree of compensation based on operation of air conditioner load, reach the equilibrium of Thermal comfort adjustment and low energy consumption energy saving.

And what prestore in air-conditioning is indoor objects temperature range, outdoor temperature scope and the multiple compensation temperatures corresponding with indoor objects temperature range and outdoor temperature scope.When performing function of temperature compensation control in operation of air conditioner process, setting compensation temperature is called by following process:

Current indoor target temperature and the indoor objects temperature range prestored are made comparisons, judges the indoor objects temperature range belonging to current indoor target temperature; Current outdoor temperature and the outdoor temperature scope prestored are made comparisons, judges the outdoor temperature scope belonging to current outdoor temperature; According to searching in that prestore, corresponding with indoor objects temperature range and outdoor temperature scope multiple compensation temperatures with the indoor objects temperature range belonging to current indoor target temperature and the corresponding compensation temperature of the outdoor temperature scope belonging to current outdoor temperature as setting compensation temperature, and call.

The above-mentioned mode with temperature range is determined and is called setting compensation temperature, and data processing amount is little, and control procedure is simple, is more conducive to carrying out controlling in time, effectively to air-conditioner, improves the speed that Thermal comfort regulates, and reduces operation energy consumption.

Original another particular flow sheet of VFC pattern shown in Figure 4 specifically, is an idiographic flow for fuzzy control.Except fuzzy control process is different from Fig. 3, the processes such as the compensation of remaining indoor temperature, room temperature PID computing, room temperature PID control are identical with Fig. 3, are not specifically addressed at this.Only describe in detail as follows with regard to the fuzzy control process of this embodiment below:

Step 42: perform fuzzy control.

Step 421: the coil temperature detecting evaporimeter.

The detection of the coil temperature of evaporimeter detects by set temperature sensor on evaporator coil.

Step 422: judge whether coil temperature is greater than coil pipe target temperature.If so, 427 are gone to step; Otherwise, perform step 423.

This step more specific description is see the description of Fig. 3.

Step 423: judge whether coil temperature is not more than coil pipe target temperature first.If so, step 424 is performed; Otherwise, perform step 425.

If step 422 judges that coil temperature is not more than coil pipe target temperature, then be not more than first after determining whether start, and perform different process according to judged result.

Step 424: if coil temperature is not more than coil pipe target temperature first after start, then the minimum frequency that will freeze is as the second target frequency.Then, step 426 is performed.

Refrigeration minimum frequency is the minimum frequency of the setting in air conditioner refrigerating running.General, be the parameter namely set before air-conditioning dispatches from the factory at refrigeration minimum frequency.

Step 425: if coil temperature is non-ly not more than coil pipe target temperature first after start, then compressor current operation frequency is reduced, obtain the second target frequency between current operation frequency and refrigeration minimum frequency.

Be not more than coil pipe target temperature first if non-after coil temperature start, then read the current operation frequency of compressor, then the second target frequency is chosen to be a frequency values between current operation frequency and refrigeration minimum frequency.Then, step 426 is performed.

Step 426: control compressor according to the smaller value in the second target frequency and the first object frequency that draws according to room temperature PID computing.

Wherein, the calculating of first object frequency is see the description of Fig. 1 embodiment, and the second target frequency refers to according to step 424 or the determined target frequency of step 425.And the refrigeration minimum frequency in step 424 is the frequency values being not more than first object frequency, thus, if be not more than coil pipe target temperature first after coil temperature start, control compressor and run with the minimum frequency that freezes.

If coil temperature is not more than coil pipe target temperature first, for avoiding the reduction of air conditioning exhausting temperature to cause air-out to be cold wind, first the frequency of compressor is defined as refrigeration minimum frequency, makes coil temperature rise to coil pipe design temperature as early as possible.If coil temperature is non-be not more than coil pipe target temperature first, show to perform fuzzy control, then coil temperature can not too lower than coil pipe target temperature, now, second target frequency is unnecessary near minimum, but between current operation frequency and refrigeration minimum frequency, to take into account the speed that room temperature regulates.

It should be noted that equally, in the process performing fuzzy control, still constantly compare the size of indoor temperature and comfort temperature.Once indoor temperature is not less than comfort temperature, then exit fuzzy control process, be transferred to room temperature PID control procedure.

For the determination of the second target frequency in step 425, multiple method can be selected, preferably adopt the method shown in Fig. 5.

Refer to Fig. 5, the figure shows in Fig. 4 coil temperature is non-be not more than coil pipe design temperature first after determine a particular flow sheet of the second target frequency.

As shown in Figure 5, coil temperature is non-be not more than coil pipe design temperature first after determine that the process of the second target frequency is as follows:

Step 4251: obtain compressor current operation frequency.

Step 4252: compressor current operation frequency is reduced adjusting frequency of setting, and the frequency after reduction is as the second target frequency.

Setting adjust frequency for air-conditioning dispatch from the factory before a pre-set frequency values, or be a frequency values of user's sets itself, such as, be set as 5Hz.This frequency values, as a frequency adjustment step-length, represents each reduction amplitude to current operation frequency.And this embodiment adopts every setting regulation time reduction mode once the reduction of frequency, realize progressively regulating, and the frequency after reducing is as the second target frequency.

Step 4253: judge whether the difference of coil pipe design temperature and coil temperature is greater than overshoot temperature value.If so, step 4254 is performed; Otherwise, go to step 4255.

After current operation frequency reduction is adjusted frequency, first judge whether the difference of coil pipe design temperature and coil temperature is greater than overshoot temperature value.Wherein, overshoot temperature value is also the temperature value of a setting, such as, is set as 1 DEG C.

Step 4254: if the difference of coil pipe design temperature and coil temperature is greater than overshoot temperature value, judges whether to arrive regulation time.If so, go to step 4251, continue the adjustment process performing frequency reduction.Otherwise, perform step 4255.

Step 4255: the second target frequency remains unchanged.

If step 4253 judges that the difference of coil pipe design temperature and coil temperature is greater than overshoot temperature value, show that coil temperature is far below coil pipe design temperature, still needs further frequency reducing.And as previously mentioned, down conversion process process is that the regulation time of interval setting reduces once.Regulation time is also a pre-set value, represents the interval time of frequency adjustment.Such as, 2min can be set as.Also, namely, after adjustment once, first using the frequency after adjustment as the second target frequency, when regulation time does not reach, keep the second target frequency constant.Compressor operating is controlled, until exit fuzzy control and enter into room temperature PID control or shutdown with the smaller value in this second target frequency and first object frequency.After regulation time arrives, then reading compressor current operation frequency, based on current operation frequency, continuing to carry out frequency reducing according to adjusting frequency.

And if step 4253 judges that the difference of coil pipe design temperature and coil temperature is not more than overshoot temperature value, though show that coil temperature does not also arrive coil pipe target temperature, but it is less with the difference of coil pipe target temperature, be not more than overshoot temperature value, now, then no longer reduce frequency, to avoid the overshoot occurring coil temperature, and affect room temperature governing speed.Thus, keep the second target frequency of step 4252 constant, and control compressor operating with the smaller value in this second target frequency and first object frequency, until exit fuzzy control and enter into room temperature PID control or shutdown.

Run in control procedure at the air conditioner refrigerating of the various embodiments described above, if the non-wind speed setting of user, then control air-conditioning draught fan and run according to highest wind velocity, because under same refrigerating capacity, the leaving air temp of high wind speed is higher than the leaving air temp of low wind speed, guarantees that leaving air temp can not be too low further.And if the wind speed that user sets detected, then control blower fan according to setting wind speed run.

Above embodiment only in order to technical scheme of the present invention to be described, but not is limited; Although with reference to previous embodiment to invention has been detailed description, for the person of ordinary skill of the art, still can modify to the technical scheme described in previous embodiment, or equivalent replacement is carried out to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of the present invention's technical scheme required for protection.

Claims (10)

1. a wall-hanging transducer air conditioning control method, is characterized in that, described method comprises:

When the airconditioning control instruction received is the comfortable instruction of refrigerated energy-saving, perform the comfortable control procedure of following refrigerated energy-saving:

Detect current indoor temperature, and make comparisons with setting indoor environment temperature threshold value;

If current indoor temperature is not less than described setting indoor environment temperature threshold value, control convertible frequency air-conditioner according to the original VFC mode operation of convertible frequency air-conditioner;

If current indoor temperature is less than described setting indoor environment temperature threshold value, obtain the compressor target frequency gone out according to described original VFC mode computation, judge whether described compressor target frequency is less than the first setting compressor frequency; If so, control described compressor to run with described first setting compressor frequency, control outdoor fan and run with setting speed; If not, described compressor and described outdoor fan is controlled according to described original VFC mode operation;

Described original VFC pattern comprises:

In refrigerating operaton process, when air-conditioning enters room temperature PID control, obtain the current indoor temperature that indoor temperature transmitter detects, as the first indoor temperature, using the difference of described first indoor temperature and setting compensation temperature as the second indoor temperature, calculate the temperature difference between described second indoor temperature and current indoor target temperature, obtain the indoor temperature difference, carry out room temperature PID computing according to the described indoor temperature difference, obtain first object frequency;

The comfort temperature of described second indoor temperature and setting is made comparisons;

If described second indoor temperature is not less than described comfort temperature, performs following room temperature PID and control:

Compressor according to described first object FREQUENCY CONTROL;

If described second indoor temperature is less than described comfort temperature, perform following fuzzy control:

Detect the coil temperature of the evaporimeter of air-conditioning, the coil pipe target temperature of described coil temperature and setting is made comparisons; If described coil temperature is greater than described coil pipe target temperature, compressor according to described first object FREQUENCY CONTROL; If described coil temperature is not more than described coil pipe target temperature, the current operation frequency of described compressor is reduced acquisition second target frequency, controls described compressor according to the smaller value in described second target frequency and described first object frequency.

2. method according to claim 1, is characterized in that, described setting compensation temperature prestores and call, corresponding with described current indoor target temperature and described current outdoor temperature compensation temperature.

3. method according to claim 2, is characterized in that, described setting compensation temperature is by following method call:

Described current indoor target temperature and the indoor objects temperature range prestored are made comparisons, judges the indoor objects temperature range belonging to described current indoor target temperature; Described current outdoor temperature and the outdoor temperature scope prestored are made comparisons, judges the outdoor temperature scope belonging to described current outdoor temperature; According to searching in that prestore, corresponding with indoor objects temperature range and outdoor temperature scope multiple compensation temperatures with the indoor objects temperature range belonging to described current indoor target temperature and the corresponding compensation temperature of the outdoor temperature scope belonging to described current outdoor temperature as described setting compensation temperature, and call.

4. according to the method in any one of claims 1 to 3, it is characterized in that, if described coil temperature is not more than described coil pipe target temperature first after described convertible frequency air-conditioner start, described second target frequency is the refrigeration minimum frequency of setting; If described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, described second target frequency is between described current operation frequency and described refrigeration minimum frequency.

5. method according to claim 4, is characterized in that, if described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, described second target frequency adopts following method to determine:

If described coil temperature is non-after described convertible frequency air-conditioner start be not more than described coil pipe target temperature first, obtain the described current operation frequency of described compressor, described current operation frequency is reduced adjusting frequency of setting by the regulation time every setting, and the frequency after reduction is described second target frequency.

6. method according to claim 5, it is characterized in that, described current operation frequency is reduced adjusting frequency after described second target frequency of setting at every turn, first judge whether the difference of described coil pipe target temperature and described coil temperature is not less than the overshoot temperature value of setting; If so, continue to perform after described regulation time arrives to adjust frequency as the process of described second target frequency described in described current operation frequency reduces, otherwise, keep described second target frequency constant.

7. control method according to any one of claim 1 to 3, it is characterized in that, when performing described fuzzy control, if the smaller value in described first object frequency and described second target frequency is greater than the highest frequency of setting, then control described compressor according to described highest frequency.

8. according to the method in any one of claims 1 to 3, it is characterized in that, in the comfortable control procedure of described refrigerated energy-saving, if current indoor temperature is less than described setting indoor environment temperature threshold value, and the actual motion frequency of described compressor is less than the second setting compressor frequency, the aperture controlling the electric expansion valve of air-conditioning is fixed as setting aperture, otherwise, the aperture of electronic valve according to described original VFC Schema control; Described second setting compressor frequency is greater than described first setting compressor frequency.

9. method according to claim 8, it is characterized in that, in the comfortable control procedure of described refrigerated energy-saving, if current indoor temperature is less than described setting indoor environment temperature threshold value, and described compressor has run the first setting-up time with the actual motion frequency being less than described second setting compressor frequency, the actual motion frequency controlling described compressor rises to the 3rd setting compressor frequency and continuous service second setting-up time, then controls compressor with the original frequency operation before frequency rising.

10. method according to claim 1, is characterized in that, when the airconditioning control instruction received is the comfortable instruction of refrigerated energy-saving, and the acquiescence airconditioning control parameter of the comfortable control of display refrigerated energy-saving; If the airconditioning control parameter reset do not detected in setting setup times, perform the comfortable control procedure of described refrigerated energy-saving according to described acquiescence airconditioning control parameter; If the airconditioning control parameter reset detected in described setting setup times, perform the comfortable control procedure of described refrigerated energy-saving according to the described airconditioning control parameter reset.