CN107631410A - The self cleaning method and air conditioner of heat exchanger of air conditioner - Google Patents
The self cleaning method and air conditioner of heat exchanger of air conditioner Download PDFInfo
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- CN107631410A CN107631410A CN201710941487.7A CN201710941487A CN107631410A CN 107631410 A CN107631410 A CN 107631410A CN 201710941487 A CN201710941487 A CN 201710941487A CN 107631410 A CN107631410 A CN 107631410A
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Abstract
The present invention discloses the self cleaning method and air conditioner of a kind of heat exchanger of air conditioner, wherein, air conditioner includes heat exchanger and heating member, and the heating member corresponds to the heat exchanger and set;The self cleaning method of the heat exchanger of air conditioner comprises the following steps:Control automatically cleaning control instruction is obtained, and enters automatically cleaning pattern;Adjust the rotation speed of fan of the air conditioner and/or reduce the temperature of the indoor heat exchanger so as to coagulate frost on the heat exchanger;When solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchanger defrosting.Technical solution of the present invention improves job stability of the air conditioner during defrost, and self-cleaning effect greatly improved.
Description
Technical field
The present invention relates to air-conditioning technical field, the self cleaning method and air conditioner of more particularly to a kind of heat exchanger of air conditioner.
Background technology
Existing air conditioner, heat exchanger fin all can closely be designed to multilayer chip, and every gap only has 1~2mm, and
And various die moulds or crack can be increased in air-conditioner fin to increase heat exchange area.During operation of air conditioner, large quantity of air circulation heat exchanger
Exchanging heat, various dusts, impurity in air etc. can be attached on heat exchanger, both influenceed heat exchanger effect, and easy breed bacteria,
At this moment just need to clean air-conditioning heat exchanger.Cleaning general interval time at present for outdoor unit is for a long time or forever
Do not clean, manually because heat exchanger is close to wall during cleaning, cleaning is inconvenient, causes cleaning not thorough, is put according to foreign object
Go to clean, may result in fin reviewing, even more influence heat exchanger heat transfer effect, shorten its service life.
Also occur a kind of new self cleaning method by carrying out solidifying white defrost again on heat exchangers now, it is existing
Realized during the defrost of this method by switching four-way valve, but in the switching for carrying out indoor heat exchanger and outdoor heat exchanger
When, because evaporating temperature is very low during automatically cleaning, evaporating pressure is low, causes the height pressure difference of air-conditioning excessive, is cut in four-way valve
Greater impact can be caused to compressor, cause operation of air conditioner unstable during changing.
The content of the invention
The main object of the present invention is to provide a kind of self cleaning method of heat exchanger of air conditioner, it is intended to improves air conditioner heat exchange
Stability of the device during self-cleaning.
To achieve the above object, the self cleaning method of heat exchanger of air conditioner proposed by the present invention, wherein, air conditioner includes changing
Hot device and heating member, the heating member correspond to the heat exchanger and set;
The self cleaning method of the heat exchanger of air conditioner comprises the following steps:
Control automatically cleaning control instruction is obtained, and enters automatically cleaning pattern;
Adjust the rotation speed of fan of the air conditioner and/or reduce the temperature of the indoor heat exchanger so that on the heat exchanger
Solidifying frost;
When solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchanger
Frost.
Preferably, it is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with right
The step of heat exchanger defrosting, specifically includes:
The thickness of frost is coagulated in detection;
When the thickness for coagulating frost is more than or equal to the first preset thickness, electric heating part is adjusted according to the current thickness for coagulating frost
Power and compressor power.
Preferably, it is described when the thickness for coagulating frost is more than or equal to the first preset thickness, according to the current thickness for coagulating frost
The step of power for adjusting electric heating part, specifically includes:
When the thickness for coagulating frost is more than or equal to the first preset thickness, and is less than or equal to the second preset thickness, open
Open the electric heating part and the electric heating part is worked with the first heating power, meanwhile, by the power adjusting of compressor to
One predetermined power;Wherein, second preset thickness is more than the first preset thickness;
When the thickness for coagulating frost is more than the second preset thickness, the power of the electric heating part is adjusted to the second heating power,
Meanwhile by the power adjusting of compressor to the second power;Wherein, the second heating power of the electric heating part is more than the first heating
Power, how many second power are less than the first power.
Preferably, it is described when the thickness for coagulating frost is more than or equal to the first preset thickness, according to the current thickness for coagulating frost
The step of power for adjusting electric heating part, specifically includes:
When coagulate frost thickness be more than or equal to the first preset thickness when, unlatching electric heating part, and make electric heating part with
Heating power work corresponding to solidifying frost thickness, meanwhile, compressor is adjusted to power corresponding with solidifying frost thickness;Wherein, air-conditioning
The memory internal memory of device contains solidifying frost thickness and the one-to-one mapping table of electric heating part operating power, and it is thick to be stored with solidifying frost
The one-to-one mapping table of power of degree and compressor.
Preferably, it is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with right
The step of heat exchanger defrosting, specifically includes:
Detect the temperature of refrigerant pipe;
When the temperature of refrigerant pipe is below or equal to the first preset temperature, added according to the temperature adjustment of current refrigerant pipe electricity
The power of warmware and the power of compressor.
Preferably, it is described when the temperature of refrigerant pipe is below or equal to the first preset temperature, according to current refrigerant pipe
The step of power of the power of temperature adjustment electric heating part and compressor, specifically includes:
When the temperature of refrigerant pipe is below or equal to the first preset temperature, and is higher than the second preset temperature, described in unlatching
Electric heating part simultaneously makes the electric heating part be worked with the 3rd heating power, meanwhile, by the power adjusting of compressor to the 3rd power;
Wherein, second preset temperature is less than the first preset temperature;
When the temperature of refrigerant pipe is below or equal to the second preset temperature, the power of the electric heating part is adjusted to second
Heating power, and by the power adjusting of compressor to the 4th power;Wherein, the 4th heating power of the electric heating part is more than the
Three heating powers, the 4th power are less than the 3rd power.
Preferably, it is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with right
The step of heat exchanger defrosting, specifically includes:
Obtain present air humidity, coagulate the power of white duration and compressor;
According to present air humidity, the power of solidifying white duration and compressor, the thickness for coagulating frost is calculated;
When the thickness for coagulating frost is more than or equal to three preset thickness, electric heating part is adjusted according to the current thickness for coagulating frost
Power and compressor power.
Preferably, it is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with right
The step of heat exchanger defrosting, specifically includes:
Obtain the thickness for coagulating frost and default defrost duration;
When the thickness for coagulating frost is more than or equal to four preset thickness, according to the current thickness for coagulating frost and default defrost
Duration, the power of electric heating part and the power of compressor are adjusted, so that solidifying frost melts in default defrost duration.
Preferably, it is described when the thickness for coagulating frost is more than or equal to four preset thickness, according to the current thickness for coagulating frost
With the power of default defrost duration regulation electric heating part and the power of compressor, melt so as to coagulate frost in default defrost duration
The step of change, specifically includes:
Obtain the Current Temperatures of refrigerant pipe;
According to the temperature of refrigerant pipe, solidifying frost thickness and default defrost duration, calculate heating member the 5th heating power and
5th power of compressor;
The operating power of heating member is adjusted to the 5th heating power, and by the power adjusting of compressor to the 5th power.
Preferably, it is described when the thickness for coagulating frost is more than or equal to four preset thickness, according to the current thickness for coagulating frost
With the power of default defrost duration regulation electric heating part and the power of compressor, melt so as to coagulate frost in default defrost duration
The step of change, specifically includes:
Electric heating part is heated into first defrost period of the day from 11 p.m. to 1 a.m length with the 6th heating power;
The thickness of frost, the temperature of refrigerant pipe and calculating second defrost period of the day from 11 p.m. to 1 a.m length are coagulated in detection;Wherein, the second defrost
Duration and the first long sum of the defrost period of the day from 11 p.m. to 1 a.m are default defrost duration;
Grown according to solidifying white thickness, the temperature of refrigerant pipe and the second defrost period of the day from 11 p.m. to 1 a.m, calculate the 7th heating work(of heating member
Rate;
The operating power of heating member is adjusted to the 7th heating power.
Preferably, it is described completed in solidifying frost when, open the heating member and adjust the power of the compressor of air conditioner
With to also including after the heat exchanger defrosting step:
When defrost is completed, the heating power of heating member is adjusted to the 8th heating power, so that heating member dries refrigerant pipe
It is dry.
The present invention further discloses a kind of air conditioner, and the air conditioner includes:
Housing, the housing have air inlet, air outlet and the air channel of the connection air inlet and air outlet;
Indoor heat exchanger, the indoor heat exchanger are arranged in the air channel;
Electric heating part, the electric heating part correspond to the indoor heat exchanger and are arranged in the air channel;
Detection means, for detecting the running parameter of air conditioner part and/or the current environment parameter of air conditioner;
Memory, it is stored with the self cleaning method of heat exchanger of air conditioner;
Main control board, it is installed in the housing, for the parameter detected according to detection means, control air conditioner is held
The self cleaning method of heat exchanger of air conditioner in line storage;
Wherein, the self cleaning method of the heat exchanger of air conditioner comprises the following steps:
Control automatically cleaning control instruction is obtained, and enters automatically cleaning pattern;
Adjust the rotation speed of fan of the air conditioner and/or reduce the temperature of the indoor heat exchanger so that on the heat exchanger
Solidifying frost;
When solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchanger
Frost.
Technical solution of the present invention, control automatically cleaning control instruction is obtained first, and enter automatically cleaning pattern;Adjust again described
The rotation speed of fan of air conditioner and/or the temperature of the reduction indoor heat exchanger are so as to coagulate frost on the heat exchanger;Then, in solidifying frost
During completion, open the electric heating part and adjust the aperture of wind deflector with to the heat exchanger defrosting;By electric heating part to solidifying
The condenser defrost of frost, compared to the mode of operation by switching air conditioner come defrost, it is not necessary to switch four-way valve, so as to avoid
The refrigerant of HTHP is abruptly entered in the refrigerant pipe of low temperature, avoids impact of the refrigerant to refrigerant pipe of HTHP so that
The job stability of heat exchanger is effectively guaranteed;Simultaneously as defrost is heated by electric heating part so that the speed of defrost
It is significantly increased so that frost melts in a short time, so that the quantity of thawing water quickly increases in a short time so that
The water for the dust being set in frost is rinsed in unit interval to be increased, so as to effectively raise developing result so that change
The cleaning performance of hot device is effectively increased;Simultaneously as defrost, this kind are heated by the electric heating part heat exchanging device of outside
Mode, it is gradually to transmit heat energy ecto-entad, avoids the heat exchanger that heat energy directly acts on low temperature, so as to avoids to low
The heat exchanger of temperature is impacted, and while being advantageous to extend the service life of heat exchanger, also advantageously improves heat exchanger work
Stability;During by electric heating part defrost, the power of compressor is turned down and is even switched off, to reduce or obstruct
The refrigerant of low temperature gets in heat exchanger, so as to reduce the source of heat exchanger cold energy, avoids producing solidifying frost again on heat exchangers, with
Heat energy caused by electric heating part is set to be used for the solidifying frost for melting current thickness, so as to reach the purpose for the simultaneously defrost that is rapidly heated;Together
When, electric heating part can be used as the auxiliary heat of electricity, to improve the temperature of air, so as to improve the heating of air conditioner in heating operations
Effect.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with
Structure according to these accompanying drawings obtains other accompanying drawings.
Fig. 1 is the structural representation of the embodiment of air conditioner one of the present invention;
Fig. 2 is the structural representation of another embodiments of angle one of Fig. 1;
Fig. 3 is the structural representation of another embodiment of another angles of Fig. 1;
Fig. 4 is the schematic flow sheet of the embodiment of self cleaning method one of heat exchanger of air conditioner of the present invention;
Fig. 5 is the schematic flow sheet of another embodiment of self cleaning method of heat exchanger of air conditioner of the present invention;
Fig. 6 is the schematic flow sheet of the another embodiment of self cleaning method of heat exchanger of air conditioner of the present invention;
Fig. 7 is the schematic flow sheet of the self cleaning method another embodiment of heat exchanger of air conditioner of the present invention;
Fig. 8 is the schematic flow sheet of the self cleaning method a further embodiment of heat exchanger of air conditioner of the present invention.
Drawing reference numeral explanation:
Label | Title | Label | Title |
100 | Housing | 110 | Air inlet |
120 | Air outlet | 130 | Air channel |
200 | Heat exchanger | 300 | Electric heating part |
400 | Wind wheel | 500 | Wind deflector |
The realization, functional characteristics and advantage of the object of the invention will be described further referring to the drawings in conjunction with the embodiments.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only the part of the embodiment of the present invention, rather than whole embodiments.Base
Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of creative work is not made it is all its
His embodiment, belongs to the scope of protection of the invention.
It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention
In explaining the relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc., if should
When particular pose changes, then directionality instruction also correspondingly changes therewith.
In addition, the description for being related to " first ", " second " etc. in the present invention is only used for describing purpose, and it is not intended that referring to
Show or imply its relative importance or imply the quantity of the technical characteristic indicated by indicating.Thus, " first ", " are defined
At least one this feature can be expressed or be implicitly included to two " feature.In addition, the technical scheme between each embodiment can
To be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme occurs
It is conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the protection model of application claims
Within enclosing.
Add job stability and defrost efficiency of the air conditioner during defrost.Below to clean indoor apparatus of air conditioner automatically
Illustrated exemplified by heat exchanger, it is to be understood that this method can be equally well suited for use in the heat exchanger of outdoor unit.Indoor heat exchange
The solidifying white process of device, occur in cooling mode, the solidifying white process of outdoor unit heat exchanger, to occur under heating mode.In the present invention
Air conditioner, the type of air conditioner is not defined, i.e., this method goes for on-hook, cabinet-type air conditioner, window machine, all-in-one etc.
Deng.
Referring to figs. 1 to Fig. 7, in embodiments of the present invention, air conditioner includes heat exchanger 200 and electric heating part 300, the electricity
The corresponding heat exchanger 200 of heating member 300 is set;Air conditioner includes housing 100, and housing 100 has air inlet 110, air outlet
120, and the air channel 130 of connection air inlet 110 and air outlet 120.Heat exchanger 200 and electric heating part 300 are arranged at air channel
In 130, the corresponding heat exchanger 200 of electric heating part 300 is set, so that its heating can be sufficiently radiated on heat exchanger 200.Electricity adds
The mounting means with air conditioner of warmware 300, can have a lot, such as be connected by screw, either snap connection or pass through
The mode of grafting connects etc..The quantity of electric heating part 300, set according to the area of heat exchanger 200, when heat exchanger 200
When area is larger, the quantity of increase electric heating part 300 that can be suitably, extension side of multiple electric heating parts 300 along heat exchanger 200
To arrangement, so that each several part of heat exchanger 200 is in the thermal radiation range of electric heating part 300.Set in the position of air inlet 110
There is air door, to adjust the intake for entering air channel from air inlet, the position of air outlet 120 is provided with wind deflector 500, wind deflector
500 deflection can adjust the effective area of air outlet 130, so as to adjust the air-out area from air outlet 120.Certainly, in wind
The wind wheel 400 of certain driving air-flow flowing is additionally provided with road 130, the species of wind wheel 400 can have a lot, such as tubular wine wheel, axle stream
Wind wheel, centrifugal wind wheel etc., by taking tubular wine wheel as an example.
The self cleaning method of the heat exchanger of air conditioner 200 comprises the following steps:
S100, control automatically cleaning control instruction is obtained, and enter automatically cleaning pattern;
In the present embodiment, the mode for obtaining automatically cleaning control instruction has a lot, for example, exterior clean electric signal is received, and
Automatically cleaning pattern is entered according to the cleaning electric signal;The cleaning electric signal is sent by mobile terminal, and mobile terminal can be distant
Control device, or the wireless telecommunications system such as mobile phone.Or by detecting the cleannes of heat exchanger 200, when cleannes are small
When preset value, air conditioner is automatically into automatically cleaning pattern.The detection of cleannes can be by detecting the more of dust
The parameter such as few is realized.Certainly, in certain embodiments, self-cleaning triggering, can also be by timing, i.e. air conditioner periodically
The automatic cleaning model of entrance.
S200, adjust the rotation speed of fan of the air conditioner and/or reduce the temperature of the indoor heat exchanger 200 so that described
Frost is coagulated on heat exchanger 200;
After air conditioner enters automatically cleaning pattern, rotation speed of fan is reduced, and moisture film is formed on the surface of heat exchanger 200, now, is increased
Add the power of compressor, either close air door or the aperture of wind deflector 500 is transferred to it is minimum, further to reduce refrigerant pipe
Temperature so that in the solidifying frost in the surface of heat exchanger 200.What deserves to be explained is when increasing the power of compressor, equivalent to increase
The refrigerating capacity of compressor, the purpose for reducing refrigerant pipe temperature can be reached;Air door and the regulation aperture of wind deflector 500 are closed, can
Exchanged heat with reducing or stopping heat exchanger 200 with the air outside air conditioner, to keep the cold energy of heat exchanger 200, so as to
Reaching quick reduces the temperature purpose of heat exchanger 200.What deserves to be explained is freeze to coagulate a kind of special shape in frost, can portion
Divide and freeze, can also freeze over.Whether part freezes or freeze over, due to during frost and ice are formed,
Need to solidify, therefore in the presence of coagulation force, the dust on heat exchanger will be solidified in frost or ice so that frosting and
Freeze can carry out self-cleaning with heat exchanging device, and all have extraordinary automatically cleaning effect.In order to which brief illustrates,
In this application, it is specifically described by taking frosting as an example.
S300, when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner to change described
Hot device defrost.
At the end of solidifying frost, electric heating part 300 is opened, electric heating part 300 converts electrical energy into heat energy, and thermal energy radiation is to changing
On the solidifying frost of hot device 200, quickly solidifying frost is melted, dust and other impurities that the water after thawing prizes when will be solidifying white are rinsed, with to
Up to the purpose of cleaning heat exchanger 200.What deserves to be explained is during solidifying frost, due to the effect of coagulation force, glutinous be bonded at is changed
Dust and other impurities on hot device 200 are solidified into frost, i.e., by coagulating white process, the ash that will can be difficult to clean on heat exchanger 200
Dirt etc. " prizing " simultaneously solidifies.During electric heating part 300 works, the power of compressor is turned down, so as to reduce or hinder
The refrigerant of exhausted low temperature gets in heat exchanger, so as to reduce the source of heat exchanger cold energy, avoids producing solidifying frost again on heat exchangers,
So that heat energy caused by electric heating part is used for the solidifying frost for melting current thickness, the utilization rate of heat energy is improved.Certainly, at some
In embodiment, compressor can be completely closed, farthest to increase operation rate.The regulation of compressor horsepower, white thickness
Degree is bigger, illustrates that the more heat energy of needs could melt, is now transferred to the power of compressor smaller.
Wherein, judge that the mode whether solidifying frost terminates can have a lot, such as detection coagulates the thickness of frost (when the thickness for coagulating frost
When reaching preset value, judge that solidifying frost terminates), the temperature of refrigerant pipe surface is detected (when the surface temperature of refrigerant pipe is less than or waits
When preset value, judge that solidifying frost terminates), or default solidifying white duration etc. is set,.Similarly, the judgement that defrost terminates,
The temperature of refrigerant pipe can be detected, or set default defrost duration etc. by the thickness of direct frost.
In the present embodiment, control automatically cleaning control instruction is obtained first, and enter automatically cleaning pattern;The air-conditioning is adjusted again
The rotation speed of fan of device and/or the temperature of the reduction indoor heat exchanger 200 are so as to coagulate frost on the heat exchanger 200;Then, solidifying
When frost is completed, the electric heating part 300 is opened with to the defrost of heat exchanger 200;By electric heating part 300 to coagulating white condensation
Device defrost, compared to the mode of operation by switching air conditioner come defrost, it is not necessary to switch four-way valve, so as to avoid HTHP
Refrigerant abruptly enter in the refrigerant pipe of low temperature, avoid impact of the refrigerant to refrigerant pipe of HTHP so that heat exchanger 200
Job stability be effectively guaranteed;Simultaneously as defrost is heated by electric heating part 300 so that the speed of defrost obtains
To being significantly increased so that frost melts in a short time, so that the quantity of thawing water quickly increases in a short time so that single
The water for the dust being set in frost is rinsed in the time of position to be increased, so as to effectively raise developing result so that heat exchange
The cleaning performance of device 200 is effectively increased;Simultaneously as the heatingization of 300 heat exchanging device of electric heating part 200 by outside
Frost, this kind of mode, it is gradually to transmit heat energy ecto-entad, avoids the heat exchanger 200 that heat energy directly acts on low temperature, so as to
Avoid and the heat exchanger 200 of low temperature is impacted, it is also favourable while being advantageous to extend the service life of heat exchanger 200
In the stability for improving the work of heat exchanger 200;During by electric heating part defrost, reduce the power or straight of compressor
Close compressor is connect, so that the refrigerant for reducing or obstructing low temperature gets in heat exchanger, so as to reduce or break off heat exchanger
The source of cold energy, avoid producing solidifying frost again on heat exchangers, so that heat energy caused by electric heating part only needs to melt current thickness
The solidifying frost of degree, so as to significantly add the efficiency of electric heating part defrost, be advantageous to improve the self-cleaning effect of defrost;Together
When, electric heating part 300 can be used as the auxiliary heat of electricity, to improve the temperature of air, so as to improve the system of air conditioner in heating operations
Thermal effect.
Certainly, in certain embodiments, when entering self-cleaning pattern, the aperture of choke valve is turned down and is even switched off, is subtracted
Less or barrier low temperature refrigerant get in heat exchanger, so as to reduce the source of heat exchanger cold energy, avoid on heat exchangers again
Solidifying frost is produced, so that heat energy caused by electric heating part is used for the solidifying frost for melting current thickness, is rapidly heated and changes so as to reach
The purpose of frost.
It is described when solidifying frost is completed in order to which more preferable defrost is to clean heat exchanger 200, open the heating member and adjust sky
The power of the compressor of device is adjusted to be specifically included to the step of heat exchanger defrosting:
S310, detect the thickness for coagulating frost;
In the present embodiment, detecting the Thickness Mode for coagulating frost has a lot, such as equal by infrared detection, ultrasound examination etc.
Can.The thickness for coagulating frost can be thickness white on fin, or thickness white on refrigerant pipe.On coagulating the thickness of frost, with multiple spot
Exemplified by solidifying frost thickness of the average value of testing result as detection.The position of test point is evenly distributed in the wing of heat exchanger 200
On piece and refrigerant pipe.Certainly, what deserves to be explained is, test point is uniformly distributed, and nisi uniform, can be according to reality
Topology requirement is selected test point, can be defined by the thickness of convenient, accurate detection frost.
S320, when the thickness for coagulating frost is more than or equal to the first preset thickness, electricity is adjusted according to the current thickness for coagulating frost
The power of heating member and the power of compressor.
When the thickness for coagulating frost is more than or equal to the first preset thickness, illustrates current white thickness and meet from clear
Clean requirement, in other words, during the frost of the first preset thickness is condensed, by the overwhelming majority on refrigerant pipe and fin
Dust and other impurities be solidified in frost.When the thickness for coagulating frost is less than the first preset thickness, illustrate that solidifying frost does not complete, now, after
Continuous solidifying frost, is not turned on electric heating part 300.When the thickness for coagulating frost is more than or equal to the first preset thickness, electric heating part 300
Power can be set according to the thickness of frost, and when frost is thicker, the power of electric heating part 300 can increase.It is worth saying
It is bright, when the power of electric heating part 300 increases to a certain amount of, or constant power, i.e. power have maximum,
When reaching maximum, the power of heating member is not further added by.Similarly, the power of compressor can be set according to the thickness of frost,
When frost is thicker, the power of compressor is smaller.What deserves to be explained is the power of compressor is turned down to a timing, keep minimum
Power (closing), is no longer turned down.Certainly, under some specific operating modes, it is necessary to high speed defrost, four-way valve can also be commutated with
Make refrigerant and the common defrost of electric heating part of high temperature.
In order to further improve the effect of defrost, the concrete mode of defrost has two kinds:
First way, it is described when the thickness for coagulating frost is more than or equal to the first preset thickness, according to current solidifying frost
The step of power of thickness regulation electric heating part, specifically includes:
When the thickness for coagulating frost is more than or equal to the first preset thickness, and is less than or equal to the second preset thickness, open
Open the electric heating part and the electric heating part is worked with the first heating power, meanwhile, by the power adjusting of compressor to
One predetermined power;Wherein, second preset thickness is more than the first preset thickness;
When the thickness for coagulating frost is more than the second preset thickness, the power of the electric heating part is adjusted to the second heating power,
Meanwhile by the power adjusting of compressor to the second power;Wherein, the second heating power of the electric heating part is more than the first heating
Power, how many second power are less than the first power.
In the present embodiment, solidifying white thickness is divided into three levels, first level is less than the first preset thickness, this
When, electric heating part 300 is not turned on, not defrost;Second level is more than or equal to the first preset thickness, and is less than or waits
In the second preset thickness, now, white thickness is not very too thick, and electric heating part 300 is with the first relatively low heating power, by compressor
Adjust to the first larger power of power, it is possible in the short period of time complete defrost;3rd level is more than second
Preset thickness, now, illustrate that the thickness of frost is thicker, now, if wanting to complete defrost in the shorter time, to improve cleaning effect
Fruit is adjusted compressor to lower-powered second power, it is necessary to using the second higher heating power.What deserves to be explained is
The thickness of frost is coagulated, more levels can be divided into according to the actual requirements, it is to be understood that multi-level dividing mode, can be with
With reference to embodiment above, will not be repeated here.
The second way, it is described when the thickness for coagulating frost is more than or equal to the first preset thickness, according to current solidifying frost
The step of power of thickness regulation electric heating part, specifically includes:
When coagulate frost thickness be more than or equal to the first preset thickness when, unlatching electric heating part, and make electric heating part with
Heating power work corresponding to solidifying frost thickness, meanwhile, compressor is adjusted to power corresponding with solidifying frost thickness;Wherein, air-conditioning
The memory internal memory of device contains solidifying frost thickness and the one-to-one mapping table of electric heating part operating power, and it is thick to be stored with solidifying frost
The one-to-one mapping table of power of degree and compressor.
In the present embodiment, the mapping table of solidifying frost thickness and the operating power of electric heating part 300 is contained in memory internal memory, is stored
There is the one-to-one mapping table of the power of solidifying frost thickness and compressor.Two above-mentioned mapping tables can be discrete type, can also
For continuous type.Certainly, in certain embodiments, the relation between frost thickness and the operating power of electric heating part 300 is coagulated, can also be expired
The specific curve of foot.By by the relation between solidifying frost thickness and the operating power of electric heating part 300, and by solidifying frost thickness and compression
Relation between acc power further becomes more meticulous so that the work of heating member more becomes more meticulous, so that defrost process is more
Become more meticulous so that defrost process and defrost effect more conform to default defrost demand, so as to the guarantee heat exchanger 200 to become more meticulous
Automatically cleaning effect.
It is described when solidifying frost is completed in order to improve self-cleaning cleaning performance, open the heating member and adjust air conditioner
Compressor power to be specifically included to the step of heat exchanger defrosting:
S330, detect the temperature of refrigerant pipe;
In the present embodiment, detecting the temperature manner of refrigerant pipe has a lot, such as passes through infrared detection, ultrasound examination etc.
.The temperature of refrigerant pipe is the temperature of refrigerant pipe surface.On the temperature of refrigerant pipe, made with the average value of multiple spot testing result
Exemplified by the solidifying white temperature of detection.The position of test point is evenly distributed on the fin and refrigerant pipe of heat exchanger 200.Certainly,
What deserves to be explained is test point is uniformly distributed, and it is nisi uniform, detection can be clicked through according to the topology requirement of reality
Row selection, can be defined by the temperature of convenient, accurate detection frost.
S340, when the temperature of refrigerant pipe is below or equal to the first preset temperature, adjusted according to the temperature of current refrigerant pipe
The power of electricity-saving heating part and the power of compressor.
When the temperature of refrigerant pipe is below or equal to the first preset temperature, illustrates current white temperature and meet certainly
The requirement of cleaning, in other words, during the first preset temperature is reached, be enough will be cold for white thickness on heat exchanger 200
Matchmaker manages to be solidified in frost with most dust and other impurities on fin.When the temperature of refrigerant pipe is higher than the first preset temperature
When, illustrate that solidifying frost does not complete, now, continue solidifying frost, be not turned on electric heating part 300.When the temperature of refrigerant pipe is below or equal to
During the first preset temperature, the power of electric heating part 300 can be set according to the temperature of refrigerant, and when temperature is lower, electricity adds
The power of warmware 300 can increase.What deserves to be explained is when the power of electric heating part 300 increases to a certain amount of,
Can be constant power, i.e. power has maximum, and when reaching maximum, the power of heating member is not further added by.Similarly, compress
The power of machine can be set according to the thickness of frost, and when frost is thicker, the power of compressor is smaller.What deserves to be explained is pressure
The power of contracting machine is turned down to a timing, is kept minimum power (closing), is no longer turned down.Certainly, under some specific operating modes, need
High speed defrost is wanted, four-way valve can also be commutated so that the common defrost of refrigerant and electric heating part of high temperature.
It is described when the temperature of refrigerant pipe is below or equal to the first preset temperature in order to further improve the effect of defrost
When, specifically included according to the step of power of the power of the temperature adjustment electric heating part of current refrigerant pipe and compressor:
When the temperature of refrigerant pipe is below or equal to the first preset temperature, and is higher than the second preset temperature, described in unlatching
Electric heating part simultaneously makes the electric heating part be worked with the 3rd heating power, meanwhile, by the power adjusting of compressor to the 3rd power;
Wherein, second preset temperature is less than the first preset temperature;
When the temperature of refrigerant pipe is below or equal to the second preset temperature, the power of the electric heating part is adjusted to second
Heating power, and by the power adjusting of compressor to the 4th power;Wherein, the 4th heating power of the electric heating part is more than the
Three heating powers, the 4th power are less than the 3rd power.
In the present embodiment, the temperature of refrigerant pipe is divided into three levels, first level is above the first preset temperature, this
When, electric heating part 300 is not turned on, not defrost;Second level be below or equal to the first preset temperature, it is and pre- higher than second
If temperature, now, the temperature of refrigerant pipe is not very too low, and electric heating part 300 is with the 3rd relatively low heating power, the power of compressor
Adjust to the 3rd larger power, it is possible in the short period of time complete defrost;3rd level be below or equal to
Second preset temperature, now, illustrate that the temperature of refrigerant pipe is relatively low, now, if wanting to complete defrost in the shorter time, to carry
High cleaning effect is, it is necessary to using the second higher heating power, it is necessary to by the power adjusting of compressor to less 4th power.
What deserves to be explained is the temperature of refrigerant pipe, can be divided into more levels according to the actual requirements, it is to be understood that multi-level
Dividing mode, be referred to embodiment above, will not be repeated here.
It is described when solidifying frost is completed in order to further improve the effect of defrost, open the heating member and adjust air conditioner
Compressor power to be specifically included to the step of heat exchanger defrosting:
Obtain present air humidity, coagulate the power of white duration and compressor;
In the present embodiment, air humidity can be detected by humidity detector;White duration is coagulated by air conditioner
Timer is recorded, and is coagulated the time zero of white duration, can be selected according to the actual requirements, at the time of to form moisture film, or
At the time of just to start solidifying white, or as starting point at the time of to improve compressor operating power.The power of compressor can be with
Obtained by calculating, or directly detection obtains.
According to present air humidity, the power of solidifying white duration and compressor, the thickness for coagulating frost is calculated;
The thickness of present air humidity, the power of solidifying white duration and compressor with frost is proportionate, that is, works as air humidity
When bigger, white thickness is bigger;When solidifying white time is longer, white thickness is bigger;When compressor horsepower is higher, white thickness is got over
Greatly.The thickness D=aMTW of frost, wherein, a is constant, and M is present air humidity, and T is the duration for coagulating frost, when W is that compressor coagulates white
Power.
When the thickness for coagulating frost is more than or equal to three preset thickness, electric heating part is adjusted according to the current thickness for coagulating frost
Power and compressor power.
When the thickness for coagulating frost is more than or equal to three preset thickness, illustrates current white thickness and meet from clear
Clean requirement, in other words, during the frost of the 3rd preset thickness is condensed, by the overwhelming majority on refrigerant pipe and fin
Dust and other impurities be solidified in frost.When the thickness for coagulating frost is less than three preset thickness, illustrate that solidifying frost does not complete, now, after
Continuous solidifying frost, is not turned on electric heating part 300.When the thickness for coagulating frost is more than or equal to three preset thickness, electric heating part 300
Power can be set according to the thickness of frost, and when frost is thicker, the power of electric heating part 300 can increase.It is worth saying
It is bright, when the power of electric heating part 300 increases to a certain amount of, or constant power, i.e. power have maximum,
When reaching maximum, the power of heating member is not further added by.Now the power of compressor is appropriate turns down, naturally it is also possible to according to
White specific thickness is coagulated to turn down, is even switched off.
In order to which defrost is completed to improve the effect of defrost in defined duration,
It is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchange
The step of device defrost, specifically includes:
S350, obtain the thickness for coagulating frost and default defrost duration;
In the present embodiment, detecting the Thickness Mode for coagulating frost has a lot, such as equal by infrared detection, ultrasound examination etc.
Can.The thickness for coagulating frost can be thickness white on fin, or thickness white on refrigerant pipe.On coagulating the thickness of frost, with multiple spot
Exemplified by solidifying frost thickness of the average value of testing result as detection.The position of test point is evenly distributed in the wing of heat exchanger 200
On piece and refrigerant pipe.Certainly, what deserves to be explained is, test point is uniformly distributed, and nisi uniform, can be according to reality
Topology requirement is selected test point, can be defined by the thickness of convenient, accurate detection frost.Default defrost duration, can
Rule of thumb to be set by user, or the preset value that air conditioner carries, or calculated for process prefabricated when dispatching from the factory
Reference value.Certainly, in certain embodiments, defrost duration can also be according to the cleannes of heat exchanger 200 before cleaning, the thickness of frost
The parameters such as degree are calculated.The setting of defrost duration, more thawing water can be formed in a short time using heat exchanger 200 as mesh
, so that substantial amounts of thawing water rinses dust etc. well.
S360, when solidifying white thickness is more than or equal to four preset thickness, coagulates white thickness according to current and preset
Defrost duration, the power of electric heating part and the power of compressor are adjusted, so that solidifying frost melts in default defrost duration.
In the present embodiment, white thickness is bigger, in the case where the power of electric heating part 300 is certain, required heating duration
It is longer, similarly, in the case where defrost duration is certain, white thickness more after, required defrost power is bigger, i.e., required for
The power of heating member is higher.In this way, it just can guarantee that the completion that defrost work is ensured in defrost duration.By to defrost duration
Limit so that the defrost efficiency of heat exchanger 200 is increased dramatically, it is important that is completed in a relatively short time defrost, largely
Thawing water can rinse dust very well, be advantageous to improve automatically cleaning effect;Simultaneously so that the duration of automatically cleaning process more may be used
Control, is advantageous to the usage time that user preferably arranges air conditioner, and be advantageous to user's replacing uses air conditioner.Similarly, compress
The power of machine can be set according to the thickness of frost, and when frost is thicker, the power of compressor is smaller.What deserves to be explained is pressure
The power of contracting machine is turned down to a timing, is kept minimum power (closing), is no longer turned down.Certainly, under some specific operating modes, need
High speed defrost is wanted, four-way valve can also be commutated so that the common defrost of refrigerant and electric heating part of high temperature
It is a variety of specifically to realize that the mode that defrost is completed in defined defrost duration has, names two examples and is said
It is bright:
First way, it is described when the thickness for coagulating frost is more than or equal to four preset thickness, according to current solidifying frost
The power of the power and compressor of thickness and default defrost duration regulation electric heating part, so that solidifying frost is in default defrost duration
The step of interior thawing, specifically includes:
Obtain the Current Temperatures of refrigerant pipe;The temperature of refrigerant pipe is the average value of multiple test points, it is of course also possible to be more
The average value of secondary detection.
According to the temperature of refrigerant pipe, solidifying frost thickness and default defrost duration, calculate heating member the 5th heating power and
5th power of compressor;
In the present embodiment, temperature and the heating power of refrigerant pipe are in inverse correlation, and the Current Temperatures of refrigerant pipe are lower, required
Electric heating part 300 heating power it is higher;It is in inverse correlation to coagulate the thickness of frost with the heating power of electric heating part 300, coagulates frost
Thickness is thicker, and the heating power of required electric heating part 300 is higher;Defrost duration and the heating power of electric heating part 300 are in
Inverse correlation, defrost duration is longer, then the heating power of electric heating part 300 can be lower.Angle of the above-mentioned relation from ability conservation
Set out, it is known that, the temperature of current refrigerant pipe and the amount of frost, represent current frost has how many cold energy;Need to melt and own
Solidifying frost, then need to provide with frost possessed by the suitable heat energy of cold energy, heat energy is heating power and heats duration (during defrost
It is long) product.Therefore, according to the temperature of refrigerant pipe, solidifying frost thickness and default defrost duration, electric heating part can be calculated
300 need great power to melt current thickness frost completely.Certainly, in certain embodiments, heat energy energy is being calculated
When, it is necessary to consider heat insulating coefficient, or the utilization rate of heat energy.Utilization rate needs the aperture in view of wind deflector 500, wind wheel
Aperture of rotating speed and air door etc., wherein, the aperture of wind deflector 500 and air door is smaller, and the rotating speed of wind wheel is smaller, the utilization rate of heat energy
To be higher, opposite, the aperture of wind deflector 500 and air door is bigger, and wind speed round is higher, and the utilization rate of heat energy will be lower.This reality
Apply in example, by taking the power for considering compressor as an example, while calculating the operating power of electric heating part 300, calculate compressor
Power.Certainly, in certain embodiments, there may be between the power of compressor and the power of electric heating part mapping relations or
Person meets curvilinear motion, and now, it is determined that one of factor, the factor in addition can be asked according to mapping relations or correlation curve
Take.What deserves to be explained is in calculating process, the factor of consideration is different, then needs to be multiplied by different equivalent coefficients, in terms of compensation
The factor not considered during calculation.
The operating power of heating member is adjusted to the 5th heating power, and by the power adjusting of compressor to the 5th power.
The operating power of electric heating part 300 is adjusted to the 5th heating power, and by the power adjusting of compressor to the 5th
Power, so as to be that frost can melt completely on heat exchanger 200.Certainly, in certain embodiments, can also by repeated detection,
Timely to adjust the 5th heating power, to ensure to melt frost in default defrost duration.
It is described when the thickness for coagulating frost is more than or equal to four preset thickness, according to current solidifying white thickness and default
The power of defrost duration regulation electric heating part and the power of compressor, so that the step of solidifying frost melts in default defrost duration
Specifically include:
Electric heating part 300 is heated into first defrost period of the day from 11 p.m. to 1 a.m length with the 6th heating power;
In the present embodiment, by being grown with the 6th basic heating power elder generation the first defrost of defrost period of the day from 11 p.m. to 1 a.m, by one
The frost divided first fall by neutralizing.So so that the defrost efficiency of heat exchanger 200 is very high, in the case where that need not calculate, directly
Heating defrost is carried out with the 6th heating power;Meanwhile frost is melted into a part, after making its thickness thinning, be advantageous to residue
Frost is handled, and can to calculate and defrost is more accurate, be advantageous to more accurately control defrost process.
The thickness of frost, the temperature of refrigerant pipe and calculating second defrost period of the day from 11 p.m. to 1 a.m length are coagulated in detection;Wherein, the second defrost
Duration and the first long sum of the defrost period of the day from 11 p.m. to 1 a.m are default defrost duration;Wherein, the second defrost period of the day from 11 p.m. to 1 a.m length and the first defrost
Duration sum is default defrost duration;The temperature of the thickness and refrigerant pipe that coagulate frost can be detected by detection means to be obtained.
Grown according to solidifying white thickness, the temperature of refrigerant pipe and the second defrost period of the day from 11 p.m. to 1 a.m, calculate the 7th heating work(of heating member
Rate;
Grown according to solidifying white thickness, the temperature of refrigerant pipe and the second defrost period of the day from 11 p.m. to 1 a.m, calculate the 7th heating of electric heating part
Power;The temperature of refrigerant pipe and heating power are in inverse correlation, and the Current Temperatures of refrigerant pipe are lower, required electric heating part 300
Heating power it is higher;It is in inverse correlation to coagulate the thickness of frost with the heating power of electric heating part 300, and the thickness of solidifying frost is thicker, required
The heating power for the electric heating part 300 wanted is higher;It is in inverse correlation that the second defrost period of the day from 11 p.m. to 1 a.m, which is grown with the heating power of electric heating part 300,
Second defrost period of the day from 11 p.m. to 1 a.m length is longer, then the heating power of electric heating part 300 can be lower.The angle of above-mentioned relation from ability conservation goes out
Hair, it is known that, the temperature of current refrigerant pipe and the amount of frost, represent current frost has how many cold energy;Need to melt all
Frost is coagulated, then the offer heat energy suitable with cold energy possessed by frost is provided, heat energy is that (the second defrost is sub with heating duration for heating power
Duration) product.Therefore, grown according to the temperature of refrigerant pipe, solidifying frost thickness and the default second defrost period of the day from 11 p.m. to 1 a.m, electricity can be calculated
Heating member 300 needs great power to melt current thickness frost completely.
The operating power of heating member is adjusted to the 7th heating power.The operating power of electric heating part 300 is adjusted to
Seven heating powers, so as to be that frost can melt completely on heat exchanger 200.Certainly, in certain embodiments, can also be by multiple
Detection, timely to adjust the 7th heating power, to ensure to melt frost in default defrost duration.
In order that air conditioner quickly returns to refrigeration mode, it is described completed in solidifying frost when, open the heating member
And the power of the compressor of air conditioner is adjusted with to also including after the heat exchanger defrosting step:
S400, when defrost is completed, the heating power of heating member is adjusted to the 8th heating power, so that heating member is by refrigerant
Pipe is dried.
In the present embodiment, at the end of defrost, solidifying frost is all melted, and now, the outer surface of heat exchanger 200 is still
It is moist.In order to avoid the outer surface of heat exchanger 200 is gone mouldy through moisture, or, frosting easily occurs in process of refrigerastion,
The power of electric heating part 300 is adjusted to the 8th relatively low heating power, whole heat exchanger 200 is dried.Flash baking is changed
After hot device 200, air conditioner can quickly enter the mode of operation needed, particularly refrigeration mode.
The present invention also proposes a kind of air conditioner, and the air conditioner includes shell storage device and storage and the air-conditioning in storage device
The self cleaning method of device heat exchanger 200, the specific implementation of the self cleaning method of the heat exchanger of air conditioner 200 is with reference to above-mentioned reality
Example is applied, because this air conditioner employs whole technical schemes of above-mentioned all embodiments, therefore at least there is above-described embodiment
All beneficial effects caused by technical scheme, this is no longer going to repeat them.Wherein, air conditioner includes:Housing 100, the shell
Body 100 has air inlet 110, air outlet 120 and the air channel 130 of the connection air inlet 110 and air outlet 120;Interior is changed
Hot device 200, the indoor heat exchanger 200 are arranged in the air channel 130;Electric heating part 300, the correspondence of electric heating part 300
The indoor heat exchanger 200 is arranged in the air channel 130;Detection means, for detect air conditioner part running parameter and/
Or the current environment parameter of air conditioner;Memory, it is stored with the self cleaning method of heat exchanger of air conditioner 200;Main control board, peace
Loaded in the housing 100, for the parameter detected according to detection means, control air conditioner performs the air conditioner in memory
The self cleaning method of heat exchanger 200.
The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the scope of the invention, it is every at this
Under the inventive concept of invention, the equivalent structure transformation made using description of the invention and accompanying drawing content, or directly/use indirectly
It is included in other related technical areas in the scope of patent protection of the present invention.
Claims (12)
1. a kind of self cleaning method of heat exchanger of air conditioner, it is characterised in that air conditioner includes heat exchanger and heating member, described to add
Warmware corresponds to the heat exchanger and set;
The self cleaning method of the heat exchanger of air conditioner comprises the following steps:
Control automatically cleaning control instruction is obtained, and enters automatically cleaning pattern;
Adjust the rotation speed of fan of the air conditioner and/or reduce the temperature of the indoor heat exchanger so as to be coagulated on the heat exchanger
Frost;
When solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchanger defrosting.
2. the self cleaning method of heat exchanger of air conditioner as claimed in claim 1, it is characterised in that it is described when solidifying frost is completed,
Open the heating member and adjust the power of the compressor of air conditioner to be specifically included to the step of heat exchanger defrosting:
The thickness of frost is coagulated in detection;
When the thickness for coagulating frost is more than or equal to the first preset thickness, the work(of electric heating part is adjusted according to the current thickness for coagulating frost
The power of rate and compressor.
3. the self cleaning method of heat exchanger of air conditioner as claimed in claim 2, it is characterised in that described when the thickness for coagulating frost is big
When the first preset thickness, specifically included according to the step of power of the current thickness regulation electric heating part for coagulating frost:
When the thickness for coagulating frost is more than or equal to the first preset thickness, and is less than or equal to the second preset thickness, institute is opened
State electric heating part and the electric heating part is worked with the first heating power, meanwhile, by the power adjusting of compressor to first pre-
If power;Wherein, second preset thickness is more than the first preset thickness;
When the thickness for coagulating frost is more than the second preset thickness, the power of the electric heating part is adjusted to the second heating power, meanwhile,
By the power adjusting of compressor to the second power;Wherein, the second heating power of the electric heating part is more than the first heating power,
How many second power are less than the first power.
4. the self cleaning method of heat exchanger of air conditioner as claimed in claim 2, it is characterised in that described when the thickness for coagulating frost is big
When the first preset thickness, specifically included according to the step of power of the current thickness regulation electric heating part for coagulating frost:
When coagulate frost thickness be more than or equal to the first preset thickness when, unlatching electric heating part, and make electric heating part with solidifying frost
Heating power corresponding to thickness works, meanwhile, compressor is adjusted to power corresponding with solidifying frost thickness;Wherein, air conditioner
Memory internal memory contains solidifying frost thickness and the one-to-one mapping table of electric heating part operating power, and be stored with solidifying frost thickness with
The one-to-one mapping table of power of compressor.
5. the self cleaning method of heat exchanger of air conditioner as claimed in claim 1, it is characterised in that it is described when solidifying frost is completed,
Open the heating member and adjust the power of the compressor of air conditioner to be specifically included to the step of heat exchanger defrosting:
Detect the temperature of refrigerant pipe;
When the temperature of refrigerant pipe is below or equal to the first preset temperature, according to the temperature adjustment electric heating part of current refrigerant pipe
Power and compressor power.
6. the self cleaning method of heat exchanger of air conditioner as claimed in claim 5, it is characterised in that described when the temperature of refrigerant pipe
During below or equal to the first preset temperature, according to the power of temperature adjustment electric heating part and the work(of compressor of current refrigerant pipe
The step of rate, specifically includes:
When the temperature of refrigerant pipe is below or equal to the first preset temperature, and is higher than the second preset temperature, opens the electricity and add
Warmware simultaneously makes the electric heating part be worked with the 3rd heating power, meanwhile, by the power adjusting of compressor to the 3rd power;Its
In, second preset temperature is less than the first preset temperature;
When the temperature of refrigerant pipe is below or equal to the second preset temperature, the power of the electric heating part is adjusted to the second heating
Power, and by the power adjusting of compressor to the 4th power;Wherein, the 4th heating power of the electric heating part is more than the 3rd and added
Thermal power, the 4th power are less than the 3rd power.
7. the self cleaning method of heat exchanger of air conditioner as claimed in claim 1, it is characterised in that it is described when solidifying frost is completed,
Open the heating member and adjust the power of the compressor of air conditioner to be specifically included to the step of heat exchanger defrosting:
Obtain present air humidity, coagulate the power of white duration and compressor;
According to present air humidity, the power of solidifying white duration and compressor, the thickness for coagulating frost is calculated;
When the thickness for coagulating frost is more than or equal to three preset thickness, the work(of electric heating part is adjusted according to the current thickness for coagulating frost
The power of rate and compressor.
8. the self cleaning method of heat exchanger of air conditioner as claimed in claim 1, it is characterised in that it is described when solidifying frost is completed,
Open the heating member and adjust the power of the compressor of air conditioner to be specifically included to the step of heat exchanger defrosting:
Obtain the thickness for coagulating frost and default defrost duration;
When the thickness for coagulating frost is more than or equal to four preset thickness, during according to current solidifying white thickness and default defrost
It is long, the power of electric heating part and the power of compressor are adjusted, so that solidifying frost melts in default defrost duration.
9. the self cleaning method of heat exchanger of air conditioner as claimed in claim 8, it is characterised in that described when the thickness for coagulating frost is big
When four preset thickness, the power of electric heating part is adjusted according to the current thickness for coagulating frost and default defrost duration
With the power of compressor, specifically included so as to coagulate the step of frost melts in default defrost duration:
Obtain the Current Temperatures of refrigerant pipe;
According to the temperature of refrigerant pipe, solidifying frost thickness and default defrost duration, the 5th heating power and the compression of heating member are calculated
5th power of machine;
The operating power of heating member is adjusted to the 5th heating power, and by the power adjusting of compressor to the 5th power.
10. the self cleaning method of heat exchanger of air conditioner as claimed in claim 8, it is characterised in that described when the thickness for coagulating frost
During more than or equal to four preset thickness, the work(of electric heating part is adjusted according to the current thickness for coagulating frost and default defrost duration
The power of rate and compressor, so that solidifying frost specifically includes the step of thawing in default defrost duration:
Electric heating part is heated into first defrost period of the day from 11 p.m. to 1 a.m length with the 6th heating power;
The thickness of frost, the temperature of refrigerant pipe and calculating second defrost period of the day from 11 p.m. to 1 a.m length are coagulated in detection;Wherein, the second defrost period of the day from 11 p.m. to 1 a.m length
It is default defrost duration with the first long sum of the defrost period of the day from 11 p.m. to 1 a.m;
Grown according to solidifying white thickness, the temperature of refrigerant pipe and the second defrost period of the day from 11 p.m. to 1 a.m, calculate the 7th heating power of heating member;
The operating power of heating member is adjusted to the 7th heating power.
11. the self cleaning method of the heat exchanger of air conditioner as described in any one in claim 1 to 10, it is characterised in that
It is described when solidifying frost is completed, open the heating member and adjust the power of the compressor of air conditioner with to the heat exchanger defrosting
Also include after step:
When defrost is completed, the heating power of heating member is adjusted to the 8th heating power, so that heating member dries refrigerant pipe.
A kind of 12. air conditioner, it is characterised in that including:
Housing, the housing have air inlet, air outlet and the air channel of the connection air inlet and air outlet;
Indoor heat exchanger, the indoor heat exchanger are arranged in the air channel;
Heating member, the heating member correspond to the indoor heat exchanger and are arranged in the air channel;
Detection means, for detecting the running parameter of air conditioner part and/or the current environment parameter of air conditioner;
Memory, store the self cleaning method just like the heat exchanger of air conditioner described in any one in claim 1 to 11;
Main control board, it is installed in the housing, for the parameter detected according to detection means, control air conditioner, which performs, to be deposited
The self cleaning method of heat exchanger of air conditioner in reservoir.
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CN109916051A (en) * | 2019-03-21 | 2019-06-21 | 青岛海尔空调器有限总公司 | Air conditioner automatically cleaning control method and air conditioner |
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CN110986273A (en) * | 2019-11-18 | 2020-04-10 | 珠海格力电器股份有限公司 | Heat exchanger is from cleaning device and air conditioner |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0933072A (en) * | 1995-07-18 | 1997-02-07 | Hitachi Ltd | Heat storage water tank and multi ice-heat-storage unit |
CN2358384Y (en) * | 1998-07-22 | 2000-01-12 | 北京扬子江制冷工程有限公司 | Frost removal for air conditioner set |
CN104515255A (en) * | 2013-09-30 | 2015-04-15 | 郑州科林车用空调有限公司 | Method and system of passenger car air conditioner for regulating temperature through intelligent combined control on temperature and humidity |
CN106322658A (en) * | 2016-08-23 | 2017-01-11 | 广东美的制冷设备有限公司 | Cleaning control method and device for heat exchanger of air conditioner |
CN106382785A (en) * | 2016-08-31 | 2017-02-08 | 成都鲜生活冷链物流有限公司 | Defrosting method for cold chain transport vehicle |
-
2017
- 2017-10-10 CN CN201710941487.7A patent/CN107631410A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0933072A (en) * | 1995-07-18 | 1997-02-07 | Hitachi Ltd | Heat storage water tank and multi ice-heat-storage unit |
CN2358384Y (en) * | 1998-07-22 | 2000-01-12 | 北京扬子江制冷工程有限公司 | Frost removal for air conditioner set |
CN104515255A (en) * | 2013-09-30 | 2015-04-15 | 郑州科林车用空调有限公司 | Method and system of passenger car air conditioner for regulating temperature through intelligent combined control on temperature and humidity |
CN106322658A (en) * | 2016-08-23 | 2017-01-11 | 广东美的制冷设备有限公司 | Cleaning control method and device for heat exchanger of air conditioner |
CN106382785A (en) * | 2016-08-31 | 2017-02-08 | 成都鲜生活冷链物流有限公司 | Defrosting method for cold chain transport vehicle |
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CN110986273A (en) * | 2019-11-18 | 2020-04-10 | 珠海格力电器股份有限公司 | Heat exchanger is from cleaning device and air conditioner |
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