CN100580346C - Air-conditioner defrosting method - Google Patents

Abstract

The invention discloses a method for air conditioner defrosting, which comprises the following steps, first, a pipeline is added between an air discharge pipe of a compressor and an air inlet pipe of a condensator in advance, and a magnetic valve is arranged on the pipeline, second, the temperature of a coil pipe of the condensator and temperature of outdoor environment are detected, third, a defrosting operation is judged to be operated or not according to the temperature of the coil pipe of the condensator and the outdoor environment, if the defrosting operation is needed, the fourth step is executed, otherwise the second step is executed, fourth, the magnetic valve is controlled to open, the frequency of the compressor is controlled to reduce to a first predetermined value, a four-way change-over valve is controlled to change into a refrigerating operation, fifth, the compressor is controlled to make an indoor set convert up to a second predetermined value according to the first predetermined speed, sixth, the temperature of the condensator is judged to detect whether the temperature is satisfied for a condition of the defrosting withdrawal, if satisfied, the seventh step is operated, otherwise, the fifth step is operated, seventh, the magnetic valve is closed, the compressor is controlled to convert down to a third predetermined value according to the second predetermined speed, and the four-way change-over valve is controlled to change to a heat-producing operation. The invention provides a method for air conditioner defrosting, which solves the problem that the period of defrosting for an air conditioner is longer, and defrosting effect of the air conditioner is influenced.

Description

Air-conditioner defrosting method

Technical field

The present invention relates to a kind of method of air-conditioner defrosting.

Background technology

Because when air-conditioning carried out low-temperature heating in the winter time, condenser can produce the frosting phenomenon, influences the heating effect of air-conditioning.When adopt shutting down refrigeration modes when dissolving frosting on the condenser, influence corresponding indoor temperature.This Defrost mode can not satisfy the requirement that the user warms oneself winter.

The most Defrost mode that adopts of air-conditioning is to shut down the back cross valve is commutated to the refrigerating operaton state at present, and the indoor and outdoor machine blower fan is out of service simultaneously.In defrost process, air-conditioning stops heating operation.Will influence the heating effect of air-conditioning like this, make the temperature in corresponding room descend to some extent.

Because condenser meeting frosting influenced heating effect when winter low temperature heated, prior art adopts shuts down the cold defrost of the transformation of ownership, because equalizing pressure needs the regular hour, so defrosting cycle is longer.The cold defrost process exhaust of the transformation of ownership need be passed through cross valve in addition, because indoor fan stops, suction temperature is very low, will make exhaust and air-breathingly in cross valve, carry out heat exchange like this, thereby the temperature that causes entering condenser reduces, and influences defrosting speed, and defrosting effect is bad.

Application number is 95120152.2, and denomination of invention discloses a kind of Defrost method of heat pump air conditioner for the Chinese invention patent of " defroster of air conditioner and control method thereof ".The defrosting control method of the described a kind of air conditioner of this patent is characterized in that may further comprise the steps: the pipeline temperature of the outdoor heat converter that pipe temperature perception step, perception air conditioner change when sending the heating installation operation; The refrigerant circuits set-up procedure be used for according to the frostwork of judging off-premises station by the outdoor pipeline temperature of above-mentioned pipeline temperature perception step institute perception in the frosting situation, and judged result is adjusted the stream that refrigerant circulates in view of the above; The Defrost operation step is used for being used to remove the Defrost operation of tying the frostwork on above-mentioned off-premises station according to the refrigerant circuits after above-mentioned refrigerant circuits set-up procedure; Outdoor temperature perception step is used for the outdoor temperature that perception changes when the Defrost operation that above-mentioned Defrost operation step is carried out; And the defrosting time calculation procedure, be used for according to the outdoor temperature in the perception of above-mentioned outdoor temperature perception step institute, the Defrost operation time of calculating above-mentioned outdoor heat converter.This patent is switched on or switched off the stream realization defrost process that refrigerant circulates by compressor drive apparatus drive compression machine.Can not solve in the defrost process exhaust and air-breathingly in cross valve, carry out heat exchange, thereby the temperature that causes entering condenser reduces, and influences defrosting speed, the technical problem that defrosting effect is bad.

Therefore, the defrosting cycle that how to solve existing air-conditioning is longer, and the problem that defrosting effect is bad is present those skilled in the art's technical issues that need to address.

Summary of the invention

The purpose of this invention is to provide a kind of air-conditioner defrosting method, it is longer in the cycle of defrosting to be used for solving the prior art air-conditioning, influences the bad technical problem of defrosting effect of air-conditioning.

Specifically, the invention provides a kind of air-conditioner defrosting method, described air-conditioning comprises the gentle side stop valve of four-way change-over valve between condenser, evaporimeter, the described condenser inlet of connection and the described evaporimeter, and the electric expansion valve and the liquid side stop valve that connect described condensator outlet and evaporimeter.This method may further comprise the steps:

1) between described compressor exhaust pipe and described condenser air inlet pipe, increases by a pipeline in advance, and on described pipeline, magnetic valve is set;

2) detect condenser coil temperature and outdoor environment temperature;

3), judge whether to enter Defrost operation according to condenser coil temperature and outdoor environment temperature; If enter Defrost operation execution in step 4, otherwise execution in step 2;

4) the described magnetic valve of control is opened, and the control compressor frequency is reduced to first predetermined value, and the commutation of control four-way change-over valve changes refrigerating operaton over to;

5) the described compressor of control, defrosts until second predetermined value by the first set rate raising frequency;

6) judge whether condenser temperature satisfies the defrosting condition that withdraws from, if satisfy execution in step 7; Otherwise execution in step 5;

7) close described magnetic valve, control described compressor and be downconverted to the 3rd predetermined value by second set rate, the control four-way change-over valve transfers heating operation to.

Preferably, described step 3 is specially: 31) heating operation continued for first scheduled time;

32) judge that whether the difference of condenser coil temperature and described outdoor environment temperature is less than first predetermined temperature value; If execution in step 33; Otherwise execution in step 2;

33) calculate the time of satisfying step 32;

34) whether the time of determining step 33 reached for second scheduled time; If execution in step 4; Otherwise execution in step 32.

Preferably, outdoor environment temperature described in the described step 32 is specially the prearranged multiple of the detected outdoor environment temperature of step 2.

Preferably, described prearranged multiple is 0.6 at the detected outdoor environment temperature of step 2 during greater than 0 ℃; Is 0.8 at described outdoor environment temperature during less than 0 ℃.

Described first predetermined temperature value is determined according to described condenser frosting complexity.

Preferably, described step 3 is specially: 3a) add up the heating operation time; 3b) whether judgement time reached for the 3rd scheduled time; If execution in step 3c; Otherwise execution in step 2a;

3c) judge whether the condenser coil temperature is lower than second predetermined temperature; If execution in step 3d; Otherwise execution in step 3a;

3d) the condenser coil temperature that adds up is lower than time of described second predetermined temperature;

3e) whether the time reached for the 4th scheduled time described in the determining step 3d; If execution in step 4; Otherwise execution in step 2.

Preferably, described step 4 is specially:

41) the described magnetic valve of control is opened, and outdoor condenser is carried out preheating;

42) the control compressor frequency is reduced to described first predetermined value and was continued for the 5th scheduled time;

43) the control room inner blower stops, and the control outdoor fan stops;

44) after lasting the 6th scheduled time, the commutation of control four-way change-over valve changes refrigerating operaton over to.

Preferably, described step 42 also comprises: control described electric expansion valve and enter predetermined benchmark aperture.

Preferably, described step 6 is specially: judge 6a) whether the condenser coil temperature is higher than the 3rd predetermined temperature; If execution in step 6b; Otherwise execution in step 5;

6b) the condenser coil temperature that adds up is higher than time of described the 3rd predetermined temperature;

6c) judge whether the time that the condenser coil temperature that adds up is higher than described the 3rd predetermined temperature reached for the 7th scheduled time; If execution in step 7, otherwise execution in step 6b.

Described first set rate and described second set rate adopt identical or different rate value.

Compare with the above-mentioned background technology, because the present invention increases magnetic valve in system, by the unlatching of control magnetic valve, the frequency reducing of control compressor; When the commutation of control cross valve changed the refrigeration defrosting over to, control compressor raising frequency gradually defrosted.The present invention realizes that compressor does not stop, and the exhaust of compressor directly is bypassed to carries out defrost in the condenser, improved defrosting efficiency and effect.

Description of drawings

Fig. 1 is the method for the invention flow chart;

Fig. 2 is air-conditioning system figure of the present invention.

The specific embodiment

The invention provides a kind of air-conditioner defrosting method, be used for solving the prior art air-conditioning in the process of defrosting, cause the temperature in corresponding room to reduce, influence the technical problem of the heating effect of air-conditioning.

Below in conjunction with accompanying drawing the specific embodiment of the invention is described.

Referring to Fig. 2, this figure is air-conditioning system figure of the present invention.

Air-conditioning of the present invention comprises condenser 1, evaporimeter 2, connects the four-way change-over valve 3 gentle side stop valves 4 between described condenser 1 inlet and the described evaporimeter 2, and the electric expansion valve 6 and the liquid side stop valve 5 that connect described condenser 1 outlet and evaporimeter 2.

Referring to Fig. 1, this figure is the method for the invention flow chart.

S1, between compressor exhaust pipe and condenser air inlet pipe, increase by a pipeline in advance, and magnetic valve 7 is set on pipeline.

S2, detection condenser coil temperature and outdoor environment temperature.

S3, according to described condenser coil temperature and outdoor environment temperature, judge whether to enter Defrost operation; If enter Defrost operation execution in step S4, otherwise execution in step 2.

Step S3 specifically may further comprise the steps:

S31, heating operation continued for first scheduled time.

S32, judge that whether the difference of condenser coil temperature and described outdoor environment temperature is less than first predetermined temperature value; If execution in step S33; Otherwise execution in step S2.

Described first predetermined temperature value is to determine according to actual conditions, promptly can determine different temperature values according to described condenser frosting complexity.

Outdoor environment temperature is specially the prearranged multiple of the detected outdoor environment temperature of step S2 among the step S32.The optimal way of described prearranged multiple is to be 0.6 at the detected outdoor environment temperature of step S2 during greater than 0 ℃; Is 0.8 at described outdoor environment temperature during less than 0 ℃.

The time that step S32 is satisfied in S33, calculating.

The accumulation calculating condition satisfies the time of step S32.

Whether the time of S34, determining step S33 reached for second scheduled time; If execution in step S4; Otherwise execution in step S32.

Described first scheduled time is preferably 10 minutes; Described second scheduled time is preferably 2 minutes.

Described step 3 can also be specially:

3a) add up the heating operation time.

3b) whether judgement time reached for the 3rd scheduled time; If execution in step 3c; Otherwise execution in step 3a.

3c) judge whether the condenser coil temperature is lower than second predetermined temperature; If execution in step 3d; Otherwise execution in step 3a.

3d) the condenser coil temperature that adds up is lower than time of second predetermined temperature.

3e) whether the time reached for the 4th scheduled time described in the determining step 3d; If execution in step S43; Otherwise execution in step S2.

S4, the described magnetic valve of control are opened, and the control compressor frequency is reduced to first predetermined value, and the commutation of control four-way change-over valve changes refrigerating operaton over to.

Step S4 specifically may further comprise the steps:

41, the described magnetic valve of control is opened, and outdoor condenser is carried out preheating.

42, the control compressor frequency is reduced to described first predetermined value and was continued for the 5th scheduled time.

43, the control room inner blower stops, and the control outdoor fan stops.

44, after lasting the 6th scheduled time, the commutation of control four-way change-over valve changes refrigerating operaton over to.

S5, the described compressor of control, defrost until second predetermined value by the first set rate raising frequency;

S6, judge that whether condenser temperature satisfies the defrosting condition that withdraws from, if satisfy execution in step S7; Otherwise execution in step S5;

Step S6 is specially:

6a) judge whether the condenser coil temperature is higher than the 3rd predetermined temperature; If execution in step 5b; Otherwise execution in step S5.

6b) the condenser coil temperature that adds up is higher than time of described the 3rd predetermined temperature.

6c) judge whether the time that the condenser coil temperature that adds up is higher than described the 3rd predetermined temperature reached for the 7th scheduled time; If execution in step S7, otherwise execution in step 6b.

Described the 3rd predetermined temperature is preferably 10 ℃, and the 7th scheduled time was preferably 60 seconds.

Described the 3rd predetermined temperature preferably can also be 14 ℃, and the 7th scheduled time was preferably 10 seconds.

S7, close described magnetic valve, control described compressor and be downconverted to the 3rd predetermined value by second set rate, the control four-way change-over valve transfers heating operation to.

First set rate of the present invention can adopt identical speed with described second set rate, also can select different speed according to actual conditions.Optimal way of the present invention is that described first set rate adopts identical speed with described second set rate, specifically adopts the speed of 1Hz/S.

Because the present invention increases magnetic valve 7 in system, by the unlatching of control magnetic valve 7,8 frequency reducings of control compressor; When 3 commutations of control cross valve changed the refrigeration defrosting over to, control compressor 8 raising frequency gradually defrosted.The present invention realizes that compressor 8 does not stop, and the exhaust of compressor 8 directly is bypassed to carries out defrost in the condenser 1, improved defrosting efficiency and effect.

Specify the defrost process of the preferred embodiment for the present invention below in conjunction with Fig. 2.

Between compressor 8 blast pipes and condenser 1 air inlet pipe, increase by a pipeline in advance, and magnetic valve 7 is set on pipeline.Magnetic valve 7 is for heating the closed type magnetic valve.Determine whether to enter Defrost operation according to condenser 1 is the coil pipe temperature with relation environment temperature.Unlatching by control magnetic valve 7 enters defrost process.

Temperature T e by external environment temperature T ao of sensing chamber and condenser middle part coil pipe under heating mode, heats compressor and opens, and move 10 minutes continuously.By detecting condenser middle part coil temperature Te and outdoor ring temperature sensor Tao, judge the frosting situation of condenser.

When meeting the following conditions in continuous 2 minutes, enter the defrosting running:

Te≤C×Tao-α

Wherein: Tao＜0 ℃, C=0.8

Tao≥0℃，C＝0.6

Preferably setting α when condenser dispatches from the factory is 7.Can set α in the place of the easy frosting of condenser as required in actual use is 5.The place that is not easy frosting at condenser is set at 9.

The temperature that enters that the control air-conditioning enters defrost state is restricted to-15 ℃≤C * Tao-α≤-5 ℃.

Heating running accumulative total 60 minutes, if Te≤-12 ℃ and just directly entered defrosting in continuous 5 minutes.

So just can prevent when ultralow temperature heats, not satisfy the entry condition of defrosting for a long time, the effect that influence heats, and general temperature sensor changes slow when temperature is very low.

Control about the defrost interval time:

When the scope of C * Tao-α 〉=-15 ℃, be 45 minutes the blanking time of controlling twice defrosting.

When ℃ scope of C * Tao-α＜-15, be 65 minutes the blanking time of controlling twice defrosting.

The control of defrosting operation process:

The unlatching of control magnetic valve 7 is carried out preheating to condenser 1.

Control compressor 8 frequencies simultaneously and reduce to 40Hz, control electric expansion valve 6 is accepted instruction and is entered 350 steps of benchmark aperture.The aperture of electric expansion valve 6 can be different according to different indoor set outdoor machine systems, generally is the preference data of determining in the experiment.

Certainly the frequency that can also control compressor 8 is reduced to certain value between 20 to 40Hz, specifically can determine according to actual conditions.

After compressor 8 frequencies were reduced to 40Hz, keep a period of time, this time period was preferably 10 seconds.The control room inner blower stops, and the control outdoor fan stops.After after a while, this time period is preferably 15S again.Control four-way change-over valve 3 power down commutation changes refrigerating operaton over to, and compressor 8 is realized defrost process with the speed raising frequency of 1Hz/S frequency when compressor normally moves.When compressor normally moves generally speaking frequency be 80Hz between the 85Hz, the raising frequency speed of same compressor 8 also can be determined according to actual conditions.

The protection such as feel elated and exultant of compressor current during the defrosting, compressor is remained valid.When the low pressure shielding, compressor 8 recovers after shutdown a period of time because of protection or disorderly closedown during defrosting, and the preferred time is 3 minutes.If still be in after shutting down in time of defrosting then control enters defrosting.Compressor 8 starts the rule operation that starts by defrost compressor.

Enter defrosting, must guarantee the minimum running time of compressor 8, just can withdraw from defrosting.Be preferably 2 minutes the minimum running time of compressor.

The defrosting exit criteria, when satisfying following arbitrary condition, the defrosting running finishes.

(1) the outdoor heat converter temperature surpassed more than 10 degree in continuous 60 seconds.

(2) the outdoor heat converter temperature surpassed more than 14 degree in continuous 10 seconds.

After satisfying the defrosting exit criteria, the Optimal Control process is: the control outdoor fan is opened high-speed cruising and is blown water, after controlling compressor 8 simultaneously and being downconverted to 40Hz with 1HZ/S speed, control magnetic valve 7 cuts out, four-way change-over valve 3 powers on to commutate and goes to the heating operation pattern after 15 seconds, electric expansion valve 6 recovers control usually, and defrosting finishes.Indoor fan recovers usually anti-cold wind control.Compressor 8 rises to the 60HZ operation after 1 minute fast 40Hz operation 1 minute, recovers the operation of target control frequency.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (8)

1, a kind of air-conditioner defrosting method, described air-conditioning comprises the gentle side stop valve of four-way change-over valve between condenser, evaporimeter, the described condenser inlet of connection and the described evaporimeter, and the electric expansion valve and the liquid side stop valve that connect described condensator outlet and evaporimeter; It is characterized in that, may further comprise the steps:

1) between described compressor exhaust pipe and described condenser air inlet pipe, increases by a pipeline in advance, and on described pipeline, magnetic valve is set;

2) detect condenser coil temperature and outdoor environment temperature;

31) heating operation continued for first scheduled time;

32) judge that whether the difference of condenser coil temperature and described outdoor environment temperature prearranged multiple is less than first predetermined temperature value; If execution in step 33; Otherwise execution in step 2;

33) calculate the time of satisfying step 32;

34) whether the time of determining step 33 reached for second scheduled time; If execution in step 4; Otherwise execution in step 32;

4) the described magnetic valve of control is opened, and the control compressor frequency is reduced to first predetermined value, and the commutation of control four-way change-over valve changes refrigerating operaton over to;

5) the described compressor of control, defrosts until second predetermined value by the first set rate raising frequency;

6) judge whether condenser temperature satisfies the defrosting condition that withdraws from, if satisfy execution in step 7; Otherwise execution in step 5;

7) close described magnetic valve, control described compressor and be downconverted to the 3rd predetermined value by second set rate, the control four-way change-over valve transfers heating operation to.

2, air-conditioner defrosting method according to claim 1 is characterized in that, described prearranged multiple is 0.6 at the detected outdoor environment temperature of step 2 during greater than 0 ℃; Is 0.8 at described outdoor environment temperature during less than 0 ℃.

3, air-conditioner defrosting method according to claim 2 is characterized in that, described first predetermined temperature value is determined according to described condenser frosting complexity.

4, air-conditioner defrosting method according to claim 1 is characterized in that, described step 31 to step 34 is replaced by following steps: 3a) add up the heating operation time; 3b) whether judgement time reached for the 3rd scheduled time; If execution in step 3c; Otherwise execution in step 3a;

3c) judge whether the condenser coil temperature is lower than second predetermined temperature; If execution in step 3d; Otherwise execution in step 3a;

3d) the condenser coil temperature that adds up is lower than time of described second predetermined temperature;

3e) whether the time reached for the 4th scheduled time described in the determining step 3d; If execution in step 4; Otherwise execution in step 2.

5, air-conditioner defrosting method according to claim 1 is characterized in that, described step 4 is specially:

41) the described magnetic valve of control is opened, and outdoor condenser is carried out preheating;

42) the control compressor frequency is reduced to described first predetermined value and was continued for the 5th scheduled time;

43) the control room inner blower stops, and the control outdoor fan stops;

44) after lasting the 6th scheduled time, the commutation of control four-way change-over valve changes refrigerating operaton over to.

6, air-conditioner defrosting method according to claim 5 is characterized in that, described step 42 also comprises: control described electric expansion valve and enter predetermined benchmark aperture.

7, air-conditioner defrosting method according to claim 1 is characterized in that, described step 6 is specially: judge 6a) whether the condenser coil temperature is higher than the 3rd predetermined temperature; If execution in step 6b; Otherwise execution in step 5;

6b) the condenser coil temperature that adds up is higher than time of described the 3rd predetermined temperature;

6c) judge whether the time that the condenser coil temperature that adds up is higher than described the 3rd predetermined temperature reached for the 7th scheduled time; If execution in step 7, otherwise execution in step 6b.

8, air-conditioner defrosting method according to claim 1 is characterized in that, described first set rate and described second set rate adopt identical or different rate value.

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