CN110173765A - Air processor and its control method and computer readable storage medium - Google Patents

Abstract

The present invention discloses a kind of control method of air processor, the air processor includes heat exchanger, containment structures, water fetching structure and the cloth water-bound that catchments, water fetching structure is at least partially disposed in the containment structures, for the water in containment structures to be played, the cloth water-bound that catchments is at least partially disposed in above water fetching structure, the water played for collecting water fetching structure, the cloth water-bound that catchments is at least partially disposed in above heat exchanger, water guidance heat-exchanger for will be collected into, the control method is the following steps are included: detect the water level in the containment structures；When the water level of detection is higher than the first preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to reduce the water level in containment structures to as water evaporation derived from cloth water-bound of catchmenting.Invention additionally discloses a kind of air processor and its computer readable storage mediums.Technical solution of the present invention can be improved the efficiency of air processor, while can also be effectively prevented from condensed water flooding problems.

Description

Air processor and its control method and computer readable storage medium

Technical field

The present invention relates to air-treatment technical field, in particular to a kind of air processor and its control method and calculating Machine readable storage medium storing program for executing.

Background technique

With the development of technology with progress, air processor (for example, window machine, air-conditioner outdoor unit, mobile air conditioner etc.) is It is increasingly becoming essential household electrical appliance in people's daily life.How to improve the efficiency of air processor and avoids Condensed water flooding problems are always that research staff focuses on the project paid close attention in air processor.Existing air processor In, what heat exchanger generallyd use is single wind cooling temperature lowering mode, and heat exchange efficiency is low, and efficiency is difficult to improve；Moreover, in order to avoid Condensed water flooding problems are generated, discharge structure is generallyd use and the condensed water of generation is discharged, to guarantee air processor just Often work, but still there is a problem of that drain operation is not fast and effective enough in practical operation.Therefore, it is necessary to using pair The condensed water of generation is rationally utilized, so that the efficiency of air processor improves, while also can effectively avoid condensed water Flooding problems.

Summary of the invention

The main object of the present invention is to provide a kind of air processor and its control method and computer-readable storage medium Matter, it is intended to improve the efficiency of air processor, while can also be effectively prevented from condensed water flooding problems.

To achieve the above object, the control method of air processor proposed by the present invention, the air processor packet It includes heat exchanger, containment structures, water fetching structure and the cloth water-bound that catchments, the water fetching structure and is at least partially disposed in the containment structures Interior, for playing the water in the containment structures, the cloth water-bound that catchments is at least partially disposed in above the water fetching structure, The water played for collecting the water fetching structure, the cloth water-bound that catchments are at least partially disposed in above the heat exchanger, are used for The water being collected into is oriented to the heat exchanger, the control method of the air processor the following steps are included:

Detect the water level in the containment structures；

When the water level of detection is higher than the first preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to by collecting Water evaporation derived from water cloth water-bound reduces the water level in containment structures.

In one embodiment, the air processor further includes driving assembly, and the driving component is rotated to drive Water fetching structure is stated to fetch water, described when the water level of detection is higher than the first preset water level, the surface temperature for controlling heat exchanger increases, with Accelerate to as water evaporation derived from cloth water-bound of catchmenting, the water level step reduced in containment structures includes:

When the water level of detection is higher than the first preset water level, reduce the revolving speed of driving assembly, to reduce beating for water fetching structure Water speed accelerates to reduce containment structures to as water evaporation derived from cloth water-bound of catchmenting so that the surface temperature of heat exchanger increases In water level.

In one embodiment, the air processor further includes compressor assembly, and the compressor assembly passes through refrigerant Pipe is connected to the heat exchanger, described when the water level of detection is higher than the first preset water level, controls the surface temperature liter of heat exchanger Height, to accelerate to as water evaporation derived from cloth water-bound of catchmenting, the water level step reduced in containment structures includes:

When the water level of detection is higher than the first preset water level, the compressor assembly transfiguration is controlled, to reduce refrigerant flow rate, So that the surface temperature of heat exchanger increases, accelerate to reduce the water in containment structures to as water evaporation derived from cloth water-bound of catchmenting Position.

In one embodiment, the height difference of first preset water level and the containment structures lowest surfaces is 15mm- 25mm。

In one embodiment, the containment structures upper surface is equipped with water tank, and the water fetching structure is at least partially disposed in institute It states in water tank, the cell wall of the water tank offers the extraneous overflow hole of connection；The air processor further includes draining Structure, the discharge structure are connected to the overflow hole, described when the water detected for the water in the containment structures to be discharged When position is higher than the first preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to as the water derived from cloth water-bound that catchments Evaporation, reduce the water level step in containment structures includes: later

When the water level of detection is higher than the second preset water level, discharge structure is controlled to carry out drain operation, reduces the storage Water level in water-bound.

In one embodiment, the height of second preset water level is lower than the cell wall height of the water tank, and described the The height difference of the cell wall upper surface of two preset water levels and the water tank is 5mm-15mm.

In one embodiment, described when the water level of detection is higher than the first preset water level, control the surface temperature of heat exchanger It increases, to accelerate to after as water evaporation derived from cloth water-bound of catchmenting, reducing the water level step in containment structures further include:

When the water level of detection is higher than third preset water level, control air processor stops working, and issues abnormal mention It wakes up.

The invention also provides a kind of air processor, the air processor includes heat exchanger, containment structures, beats Water-bound and the cloth water-bound that catchments, the water fetching structure are at least partially disposed in the containment structures, are used for the water storage knot Water in structure is played, and the cloth water-bound that catchments is at least partially disposed in above the water fetching structure, for collecting the knot of fetching water The water that structure is played, the cloth water-bound that catchments are at least partially disposed in above the heat exchanger, for the water being collected into be oriented to institute State heat exchanger；The air processor further includes processor, memory and is stored on the memory and can be described The control program of the air processor run on processor, the heat exchanger are connected to the processor, the air-treatment The each of the control method of the air processor as described in above-described embodiment is realized when the control program of device is executed by processor A step.

In one embodiment, the air processor is window machine or air-conditioner outdoor unit or mobile air conditioner.

The invention also provides a kind of computer readable storage medium, the computer-readable recording medium storage has air The control program of processing unit is realized when the control program of the air processor is executed by processor such as above-described embodiment institute Each step of the control method for the air processor stated.

Technical solution of the present invention, air processor include heat exchanger, containment structures, water fetching structure and the water distribution knot that catchments Structure, water fetching structure are at least partially disposed in containment structures, and for playing the water in containment structures, catchment cloth water-bound at least portion It is divided into above water fetching structure, the water played for collecting water fetching structure, the cloth water-bound that catchments is at least partially disposed on heat exchanger Side, the water guidance heat-exchanger for will be collected into.When detecting the water level in containment structures higher than the first preset water level, control is changed The surface temperature of hot device increases, to accelerate to reduce the water level in containment structures to as water evaporation derived from cloth water-bound of catchmenting.By In heat exchanger other than using air-cooled heat exchange, also being exchanged heat using water cooling, then the heat exchange efficiency of heat exchanger greatly improves, thus Improve the efficiency of air processor.And reasonable utilization is carried out to water storage trough inner water, can be effectively avoided at air The phenomenon that reason device generates overflow leakage occurs.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 be for the present embodiments relate to air processor hardware structural diagram；

Fig. 2 is the flow diagram of the control method first embodiment of air processor of the present invention；

Fig. 3 is the structural schematic diagram of one embodiment of air processor of the present invention；

Fig. 4 is the cross-sectional view of Fig. 3 air processor along its length, wherein path shown in dotted arrow is water flow road Diameter；

Fig. 5 is the cross-sectional view of Fig. 3 air processor in the width direction；

Fig. 6 is the partial structural diagram of Fig. 3 air processor；

Fig. 7 be Fig. 3 air processor in containment structures combined with discharge structure after structural schematic diagram；

Fig. 8 is the cross-sectional view of Fig. 6 air processor in the width direction；

Fig. 9 is the enlarged diagram in Fig. 8 at A；

Figure 10 is the flow diagram of the control method second embodiment of air processor of the present invention；

Figure 11 is the flow diagram of the control method second embodiment of air processor of the present invention.

Drawing reference numeral explanation:

Label	Title	Label	Title
				1000	Air processor, air-conditioner outdoor unit	510	Motor
100	Heat exchanger	520	Wind wheel
				200	Containment structures, chassis	600	Compressor assembly
210	Water tank	700	Discharge structure
				220	Overflow hole	710	Drain assembly
230	Water level switch	711	Drainage joint
				300	Water fetching structure	712	Drain body
400	Catchment cloth water-bound	720	Sealing element
				500	Driving assembly, blower

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

The primary solutions of the embodiment of the present invention are: air processor 1000 includes heat exchanger 100, containment structures 200, water fetching structure 300 and the cloth water-bound 400 that catchments, water fetching structure 300 are at least partially disposed in containment structures 200, and being used for will Water in containment structures 200 is played, and the cloth water-bound 400 that catchments is at least partially disposed in 300 top of water fetching structure, is fetched water for collecting The water that structure 300 is played, the cloth water-bound 400 that catchments is at least partially disposed in 100 top of heat exchanger, for the water being collected into be oriented to Heat exchanger 100.When detecting the water level in containment structures 200 higher than the first preset water level, the surface temperature of heat exchanger 100 is controlled It increases, to accelerate to reduce the water level in containment structures 200 to as water evaporation derived from cloth water-bound 400 of catchmenting.

Since heat exchanger 100 additionally uses water cooling heat exchange, then other than using air-cooled heat exchange in air processor 1000 The heat exchange efficiency of heat exchanger 100 greatly improves, to improve the efficiency of air processor 1000.And to containment structures 200 Interior water has carried out reasonable utilization, and the phenomenon that air processor 1000 generates overflow leakage generation can be effectively avoided.

As a kind of implementation, air processor 1000 can be as shown in Figure 1.

The embodiment of the present invention includes: processor what is involved is air processor 1000, air processor 1000 1001, such as CPU, memory 1002 and communication bus 1003, wherein communication bus 1003 is for realizing between these components Connection communication.

Memory 1002 can be high speed RAM memory, be also possible to stable memory (non- ), such as magnetic disk storage volatilememory.As shown in Figure 1, as in a kind of memory 1002 of computer storage medium It may include the control program of air processor 1000；And processor 1001 can be used for calling and store in memory 1002 The control program of air processor 1000, and execute following operation:

Detect the water level in the containment structures 200；

When the water level of detection be higher than the first preset water level when, control heat exchanger 100 surface temperature increase, with accelerate to by It catchments water evaporation derived from cloth water-bound 400, reduces the water level in containment structures 200.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

The air processor 1000 further includes driving assembly 500, and the rotation of the driving component 500 is to drive described beat Water-bound 300 is fetched water, and when the water level of detection is higher than the first preset water level, is reduced the revolving speed of driving assembly 500, is fetched water with reducing The speed of fetching water of structure 300 accelerates so that the surface temperature of heat exchanger 100 increases to as the water derived from cloth water-bound 400 that catchments Evaporation reduces the water level in containment structures 200.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

The air processor 1000 further includes compressor assembly 600, and the compressor assembly 600 is connected by refrigerant pipe It is connected to the heat exchanger 100, when the water level of detection is higher than the first preset water level, controls 600 transfiguration of compressor assembly, with Reduce refrigerant flow rate so that the surface temperature of heat exchanger 100 increases, acceleration to as water evaporation derived from cloth water-bound 400 of catchmenting, Reduce the water level in containment structures 200.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

The height difference of first preset water level and 200 lowest surfaces of containment structures is 15mm-25mm.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

200 upper surface of containment structures is equipped with water tank 210, and the water fetching structure 300 is at least partially disposed in the appearance In sink 210, the cell wall of the water tank 210 offers the extraneous overflow hole 220 of connection；The air processor 1000 is also Including discharge structure 700, the discharge structure 700 is connected to the overflow hole 220, for will be in the containment structures 200 Water discharge controls discharge structure 700 to carry out drain operation, described in reduction when the water level of detection is higher than the second preset water level Water level in containment structures 200.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

The height of second preset water level is lower than the cell wall height of the water tank 210, and second preset water level Height difference with the cell wall upper surface of the water tank 210 is 5mm-15mm.

In one embodiment, processor 1001 can be used for calling the air processor 1000 stored in memory 1002 Control program, and execute following operation:

When the water level of detection is higher than third preset water level, control air processor 1000 stops working, and issues different Often remind.

For the present embodiment according to above scheme, air processor 1000 includes heat exchanger 100, containment structures 200, knot of fetching water Structure 300 and the cloth water-bound 400 that catchments, water fetching structure 300 are at least partially disposed in containment structures 200, are used for containment structures 200 Interior water is played, and the cloth water-bound 400 that catchments is at least partially disposed in 300 top of water fetching structure, is played for collecting water fetching structure 300 Water, the cloth water-bound 400 that catchments is at least partially disposed in the top of heat exchanger 100, the water guidance heat-exchanger 100 for will be collected into. When detecting the water level in containment structures 200 higher than the first preset water level, the surface temperature of control heat exchanger 100 is increased, to add Speed reduces the water level in containment structures 200 to as water evaporation derived from cloth water-bound 400 of catchmenting.Since heat exchanger 100 is in addition to adopting With outside air-cooled heat exchange, also exchanged heat using water cooling, then the heat exchange efficiency of heat exchanger 100 greatly improves, to improve at air Manage the efficiency of device 1000.And reasonable utilization is carried out to water storage trough inner water, air processor can be effectively avoided The phenomenon that 1000 generation overflow leakage, occurs.

Based on above-mentioned hardware architecture, the embodiment of the control method of air processor 1000 of the present invention is proposed.

Air processor 1000 can be air conditioner, such as window machine, air-conditioner outdoor unit 1000, mobile air conditioner, can also be with It is humidifier, such as wet-membrane humidifier, air processor 1000 includes heat exchanger 100.

It is introduced by taking air-conditioner outdoor unit 1000 as an example below.

It is the first embodiment of the control method of air processor 1000 of the present invention, air-treatment dress referring to Fig. 2, Fig. 2 Set 1000 control method the following steps are included:

S10 detects the water level in containment structures 200；

Referring to Fig. 3 to Fig. 5, in the present embodiment, air processor 1000 includes heat exchanger 100, containment structures 200, beats Water-bound 300 and the cloth water-bound 400 that catchments, water fetching structure 300 are at least partially disposed in containment structures 200, are used for water storage knot Water in structure 200 is played, and the cloth water-bound 400 that catchments is at least partially disposed in 300 top of water fetching structure, for collecting water fetching structure 300 water played, the cloth water-bound 400 that catchments are at least partially disposed in 100 top of heat exchanger, exchange heat for the water being collected into be oriented to Device 100.

Specifically, 200 structure of containment structures is the chassis 200 of air-conditioner outdoor unit 1000, to store air-conditioner outdoor unit Condensed water, tap water, rainwater or other water bodys generated in 1000.Water fetching structure 300 can be water ring circle, ring of fetching water Central axis is horizontally disposed, and the bottom for ring of fetching water is located in the water space on chassis 200, and top is located at the top on chassis 200. Further, fetching water ring can be rotatable around its axis, so that the water in chassis 200 is played in its bottom.Catchment cloth water-bound There are the tops that part-structure is located at water fetching structure 300 in 400, for collecting in the chassis 200 played by water fetching structure 300 Water；Meanwhile there is also the tops that part-structure is located at heat exchanger 100 in the cloth water-bound 400 that catchments, the water storage for will be collected into Water guidance heat-exchanger 100 in structure 200.It should be noted that water both can vertically be led by the surface of heat exchanger 100 It, can also be by the oblique upper of heat exchanger 100 by obliquely guidance heat-exchanger 100 to heat exchanger 100.Catchmenting cloth water-bound 400 can Think plate structure, which is at an angle to the horizontal surface ground by its plate face, 300 and of water fetching structure is obliquely arranged in The top of heat exchanger 100, also, the plate face height of the plate structure press by water fetching structure 300 to the direction of heat exchanger 100 gradually Successively decrease.At this point, the lower surface of plate structure collects the water in the chassis 200 played by water fetching structure 300, also, this portion The water divided in the chassis 200 being collected into can flow to the top of heat exchanger 100 along the lower surface of the plate structure, finally in heat exchanger 100 top is dripped and is contacted with heat exchanger 100, and the humidification of heat exchanging device 100 is completed.It is, of course, also possible in above-mentioned plate The surrounding of shape structure is towards chassis 200 (downward) projection water fender, to obtain water collecting function and water distribution function in the cover of one Structure, thus realize higher efficiency catchment and water distribution.

It should be noted that referring to Fig. 8 and Fig. 9, the lowest surfaces of water fetching structure 300 and the difference in height of 200 lowest surfaces of chassis For h1, generally, 5mm≤h1≤15mm, such as h1 take 5mm or 10mm or 15mm.When the water level of condensed water in chassis 200 is high When degree is higher by 5mm to 15mm than the lowest surfaces on chassis 200, water fetching structure 300 can play the water in chassis 200, and by collecting Water cloth water-bound 400 collect and guidance heat-exchanger 100, with heat exchanging device 100 carry out water cooling heat exchange, improving heat exchanging efficiency, thus Improve the efficiency of air-conditioner outdoor unit 1000.

In order to more accurately detect the height of water level of condensed water in chassis 200, generally chassis 200 can be provided with water level control Device processed, water level controller can be float-ball type water level switch 230 or liquid level relay etc. it is existing in water level control and match Close water-level alarm, principle is to detect by electronic probe to water level, then by water level detecting special chip to detecting Signal is handled, and when fluid to be measured reaches operating point, is exported high or low level signal, then cooperate water level controller, is exported Relay switch signal, or alarm is directly supplied electricity to, to realize the warning function to liquid level, and then guarantee air-treatment The operational reliability of device 1000.Since the water in chassis 200 passes through 300 sum aggregate water cloth water-bound of water fetching structure, 400 heat exchanging Device 100 carries out cooling and heat dissipation, then the water level of condensed water constantly changes with the progress of time in chassis 200, in order to guarantee The waterlevel data validity and accuracy of detection can detect the height of water level of condensed water in chassis 200 at interval of preset time, To obtain more effective detection data.Preset time can carry out value, such as 3min, 5min within the scope of 1min-10min Deng.

S20, when the water level of detection is higher than the first preset water level, the surface temperature of control heat exchanger 100 is increased, to accelerate To as water evaporation derived from cloth water-bound 400 of catchmenting, the water level in containment structures 200 is reduced.

In the present embodiment, as the water level of condensed water in chassis 200 gradually rises, when the water level of condensed water in chassis 200 When higher than the first preset water level, at this point, by the partial condensation water of water fetching structure 300 and water distribution water collecting structure guidance heat-exchanger 100 Cannot fully heat exchanging device 100 it cool down, this partial condensation water can then be fallen into chassis 200, cause water level in chassis 200 It increases.In order to avoid partial condensation water is not fully utilized, the surface temperature of control heat exchanger 100 is increased, to accelerate to by collecting Water evaporation derived from water cloth water-bound 400, so that more fully utilized as the water derived from cloth water-bound 400 that catchments, and Since heat exchanger 100 carries out humidification evaporation to as the water derived from cloth water-bound 400 that catchments, then in chassis 200 condensed water water level It can reduce, so as to be effectively prevented from the phenomenon that air-conditioner outdoor unit 1000 generates spilling water leakage generation.It should be noted that this In the first preset water level be generally higher by 15mm-25mm range than 200 lowest surfaces of chassis, for example the first preset water level is higher by chassis 200 lowest surfaces 15mm or 20mm or 25mm.

0, Figure 10 is the second embodiment of the control method of air processor 1000 of the present invention referring to Fig.1, is based on first Embodiment, step S20 the following steps are included:

Step S20a reduces the revolving speed of driving assembly 500 when the water level of detection is higher than the first preset water level, to reduce The speed of fetching water of water fetching structure 300, so that the surface temperature of heat exchanger 100 increases, acceleration is exported to by the cloth water-bound 400 that catchments Water evaporation, reduce containment structures 200 in water level.

Referring again to Fig. 3 to Fig. 5, water fetching structure 300 is ring of fetching water, and ring of fetching water can be rotatable around its axis, so that Its bottom is played by the water in chassis 200.In order to enable to fetch water, ring is rotatable around its axis, and air processor 1000 also wraps Driving assembly 500 is included, driving assembly 500 is rotated to drive water fetching structure 300 to fetch water, i.e., driving assembly 500 is fetched water for driving Ring is rotated around center axis thereof.Of course, water fetching structure 300 or flutter board, fetch water wheel or other rationally and effectively Water fetching structure 300.The crank and rocker mechanism of the driving of motor 510 can be used in corresponding driving assembly 500, so that bar shaped setting One end height of flutter board is swung, to contact and play the water in chassis 200；The air exercise water wheels of motor 510 can also be directlyed adopt Rotation driven so that the outer rim for wheel of fetching water contacts during rotation and plays the water in chassis 200.Certainly, other The corresponding driving assembly 500 of water fetching structure 300 can also do reasonable and effective setting, and this is no longer going to repeat them.

In the present embodiment, driving assembly 500 be blower 500, including motor 510 and with 510 output shaft of motor be sequentially connected Wind wheel 520, water fetching structure 300 be in loop shaped structure, set on the outer ring of wind wheel 520, and towards heat exchanger 100 be arranged, ring The bottom of shape structure is set in chassis 200.Water level switch 230 is provided in chassis 200, for detecting condensed water in chassis 200 Height of water level, water level switch 230 is electrically connected at the control program of air processor 1000, when water level switch 230 detects When the water level of condensed water is higher than the first preset water level in chassis 200, water level switch 230 can be sent to water level signal at air The control program of device 1000 is managed, processor 1001, which calls control program and controls driving assembly 500, reduces revolving speed, so that fetching water The speed reduction of fetching water of structure 300, at this point, opposite will be subtracted by the water flow velocity for 400 guidance heat-exchanger 100 of cloth water-bound that catchments Slowly, then the temperature on 100 surface of heat exchanger will increase, and heat exchanger 100 accelerates to by 400 guidance heat-exchanger of cloth water-bound that catchments 100 water evaporation, promotes the heat exchange efficiency of heat exchanger 100, while also reducing the height of water level of condensed water in chassis 200.It can With understanding, 500 deceleration-operation of driving assembly, it is also possible that the operation of driving assembly 500 is more energy saving, to further increase The efficiency of air processor 1000.

It should be noted that the setting height of water level switch 230 is generally higher by water fetching structure 300 most referring to Fig. 8 and Fig. 9 Bottom surface, and the two difference in height is that h2,5mm≤h2≤15mm, such as h2 take 5mm or 10mm or 15mm.

1, Figure 11 is the 3rd embodiment of the control method of air processor 1000 of the present invention referring to Fig.1, is based on first Embodiment, step S20 the following steps are included:

Step S20b controls 600 transfiguration of compressor assembly when the water level of detection is higher than the first preset water level, to reduce Refrigerant flow rate accelerates to reduce to as water evaporation derived from cloth water-bound 400 of catchmenting so that the surface temperature of heat exchanger 100 increases Water level in containment structures 200.

Referring to Fig. 3 to Fig. 5, in the present embodiment, air processor 1000 further includes compressor assembly 600, compressor set Part 600 is connected to heat exchanger 100 by refrigerant pipe, and for providing refrigerant for heat exchanger 100, compressor assembly 600 is to become here Appearance formula compressor.Water level switch 230 is provided in chassis 200, for detecting the height of water level of condensed water in chassis 200, water level Switch 230 is electrically connected at the control program of air processor 1000, condenses when water level switch 230 detects in chassis 200 When the water level of water is higher than the first preset water level, water level switch 230 can be sent to water level signal the control of air processor 1000 Processing procedure sequence, processor 1001 call control program and control 600 transfiguration of compressor assembly, reduce refrigerant flow rate, i.e. reduction refrigerant Cycle-index, at this moment the temperature on 100 surface of heat exchanger will increase, and can accelerate to by the guiding heat exchange of cloth water-bound 400 of catchmenting The water evaporation of device 100, promotes the heat exchange efficiency of heat exchanger 100, while also reducing the height of water level of condensed water in chassis 200.

It should be understood that when the height of water level for detecting condensed water in chassis 200 is higher than the first preset height, Ke Yitong Cross reduce driving assembly 500 revolving speed with reduce water fetching structure 300 fetch water speed or control 600 transfiguration of compressor assembly with Reducing reduces refrigerant flow rate, and 100 surface temperature of Lai Shixian heat exchanger increases, and accelerates to by the guiding heat exchange of cloth water-bound 400 of catchmenting The water evaporation of device 100 promotes the heat exchange efficiency of heat exchanger 100, to improve the efficiency of air processor 1000.Of course, Fetch water speed and the control compressor set of water fetching structure 300 can also be reduced by reducing the revolving speed of driving assembly 500 simultaneously 600 transfiguration of part realizes that 100 surface temperature of heat exchanger increases to reduce reduction refrigerant flow rate, in actual operation, can be according to tool Body scene selects control.

It is further, further comprising the steps of after step S20 referring again to Fig. 1:

Step S30, when the water level of detection be higher than the second preset water level when, control discharge structure 700 to carry out drain operation, Reduce the water level in containment structures 200.

Referring to Fig.1, Fig. 6 and Fig. 7, in the present embodiment, 200 upper surface of containment structures is equipped with water tank 210, water fetching structure 300 are at least partially disposed in water tank 210, and the cell wall of water tank 210 offers the extraneous overflow hole 220 of connection；Air-treatment Device 1000 further includes discharge structure 700, and discharge structure 700 is connected to overflow hole 220, for by the water in containment structures 200 Discharge.Specifically, the upper surface recess on chassis 200 is formed with water tank 210, and the lower part of water fetching structure 300 is located in accommodation groove, Overflow hole 220, which is opened in the bottom wall of water tank 210 or overflow hole 220, can also be opened in the side wall of water tank 210, and lean on Nearly bottom wall setting.Discharge structure 700 includes sealing element 720 and drain assembly 710, and sealing element 720 blocks overflow hole 220, and The via hole of perforation is offered, drain assembly 710 includes drainage joint 711 and drain body 712,711 grafting of drainage joint In via hole, and appear sealing element 720, what drain body 712 was socketed on drainage joint 711 appears end.Drainage joint 711 can be with It is designed as L shape, it, also can more conveniently will be in chassis 200 when air-conditioner outdoor unit 1000 is installed on flat ground or flooring Water from overflow hole 220 draw, then from side to drain body 712 be discharged, meanwhile, so that the assembling of discharge structure 700 Process is easier.In this way, operating in relatively slow if fetching water, the water level of condensed water will be gradually risen in chassis 200, When the water in water tank 210 reaches the second preset height, can be discharged by overflow hole 220 by discharge structure 700, to reduce The height of water level of condensed water in chassis 200, being effectively prevented from air-conditioner outdoor unit 1000, there is a phenomenon where spilling water leakage generations.It needs Illustrate, referring to Fig. 8 and Fig. 9, the spillwag chute height of overflow hole 220 is lower than the height of the cell wall upper surface of water tank 210, and The two difference is that h3,5mm≤h3≤15mm, such as h3 take 5mm or 10mm or 15mm.It should be understood that the second preset water level Height be lower than the cell wall height of water tank 210, and the height difference of the cell wall upper surface of the second preset water level and water tank 210 When for 5mm-15mm, the condensed water in water tank 210 is flowed out by overflow hole 220 and is discharged through discharge structure 700.

Further, further comprising the steps of after step S20 referring again to Fig. 1:

Step S40, when the water level of detection is higher than third preset water level, control air processor 1000 stops working, And issue abnormity prompt.

If fetching water, it is in relatively slow to operate, and overflow hole 220 blocks, and the water in chassis 200 cannot be arranged timely Out, then the water level of condensed water gradually rises in chassis 200, when the water level of condensed water in chassis 200 is higher than third preset water level, Water can then be overflowed by the top of water tank 210 in chassis 200, so that the phenomenon that air-conditioner outdoor unit 1000 generates spilling water leakage.This When to control air processor 1000 and stop working, to guarantee the reliability of air-conditioner outdoor unit 1000, and issue abnormity prompt, To remind user to check and solve its failure, for example the overflow hole 220 of blocking is dredged.It should be understood that third preset water level Height is that the top of the water tank 210 on chassis 200 then can be from water tank when the condensed water in chassis 200 reaches third water level 210 top is overflowed, and 1000 spilling water phenomenon of air-conditioner outdoor unit is caused, when the water level of detection is higher than third preset water level, control Air processor 1000 stops working, to guarantee the reliability of air-conditioner outdoor unit 1000.

The invention also provides a kind of air processor 1000, air processor 1000 includes heat exchanger 100, water storage Structure 200, water fetching structure 300 and the cloth water-bound 400 that catchments, water fetching structure 300 are at least partially disposed in containment structures 200, are used It is played in by the water in containment structures 200, the cloth water-bound 400 that catchments is at least partially disposed in 300 top of water fetching structure, for collecting The water that water fetching structure 300 is played, the cloth water-bound 400 that catchments is at least partially disposed in 100 top of heat exchanger, for that will be collected into Water guidance heat-exchanger 100；Air processor 1000 further include processor, memory and storage on a memory and can be The control program of the air processor 1000 run on the processor, heat exchanger 100 is connected to the processor, at air The control program of reason device 1000 realizes the control of the air processor 1000 as described in above-described embodiment when being executed by processor Each step of method processed.

The invention also provides a kind of computer readable storage medium, the computer-readable recording medium storage has air It realizes when the control program of the control program of processing unit 1000, the air processor 1000 is executed by processor as above-mentioned Each step of the control method of air processor 1000 described in embodiment.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in one as described above In storage medium (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that terminal device (it can be mobile phone, Computer, server, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.

The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (10)

1. a kind of control method of air processor, which is characterized in that the air processor includes heat exchanger, water storage knot Structure, water fetching structure and the cloth water-bound that catchments, the water fetching structure are at least partially disposed in the containment structures, are used for the storage Water in water-bound is played, and the cloth water-bound that catchments is at least partially disposed in above the water fetching structure, for collecting described beat The water that water-bound is played, the cloth water-bound that catchments is at least partially disposed in above the heat exchanger, for leading the water being collected into To the heat exchanger, the control method of the air processor the following steps are included:

Detect the water level in the containment structures；

When the water level of detection is higher than the first preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to by collection water cloth Water evaporation derived from water-bound reduces the water level in containment structures.

2. the control method of air processor as described in claim 1, which is characterized in that the air processor also wraps Driving assembly is included, the driving component is rotated to drive the water fetching structure to fetch water, described when the water level of detection is higher than first in advance If when water level, the surface temperature for controlling heat exchanger is increased, to accelerate to reduce water storage to as water evaporation derived from cloth water-bound of catchmenting Water level step in structure includes:

When the water level of detection is higher than the first preset water level, reduce the revolving speed of driving assembly, to reduce the speed of fetching water of water fetching structure Degree accelerates evaporation as the water derived from cloth water-bound that catchments, reduces the water in containment structures so that the surface temperature of heat exchanger increases Position.

3. the control method of air processor as described in claim 1, which is characterized in that the air processor also wraps Include compressor assembly, the compressor assembly is connected to the heat exchanger by refrigerant pipe, described when the water level of detection is higher than the When one preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to reduce to as water evaporation derived from cloth water-bound of catchmenting Water level step in containment structures includes:

When the water level of detection is higher than the first preset water level, the compressor assembly transfiguration is controlled, to reduce refrigerant flow rate, so that The surface temperature of heat exchanger increases, and accelerates evaporation as the water derived from cloth water-bound that catchments, reduces the water level in containment structures.

4. the control method of air processor as claimed any one in claims 1 to 3, which is characterized in that described first The height difference of preset water level and the containment structures lowest surfaces is 15mm-25mm.

5. the control method of air processor as claimed any one in claims 1 to 3, which is characterized in that the water storage Structure upper surface is equipped with water tank, and the water fetching structure is at least partially disposed in the water tank, and the cell wall of the water tank is opened Equipped with the overflow hole that connection is extraneous；The air processor further includes discharge structure, and the discharge structure is connected to described overflow Discharge orifice, described when the water level of detection is higher than the first preset water level for the water in the containment structures to be discharged, control heat exchange The surface temperature of device increases, to accelerate to reduce the water level step in containment structures to as water evaporation derived from cloth water-bound of catchmenting Include: later

When the water level of detection is higher than the second preset water level, control discharge structure draining, to reduce the water in the containment structures Position.

6. the control method of air processor as claimed in claim 5, which is characterized in that the height of second preset water level Degree is lower than the cell wall height of the water tank, and the difference in height of the cell wall upper surface of second preset water level and the water tank Value is 5mm-15mm.

7. the control method of air processor as claimed any one in claims 1 to 3, which is characterized in that described when inspection When the water level of survey is higher than the first preset water level, the surface temperature for controlling heat exchanger is increased, to accelerate to lead to by the cloth water-bound that catchments Water evaporation out, reduce containment structures in water level step after further include:

When the water level of detection is higher than third preset water level, control air processor stops working, and issues abnormity prompt.

8. a kind of air processor, which is characterized in that the air processor includes heat exchanger, containment structures, knot of fetching water Structure and the cloth water-bound that catchments, the water fetching structure are at least partially disposed in the containment structures, and being used for will be in the containment structures Water play, the cloth water-bound that catchments is at least partially disposed in above the water fetching structure, is beaten for collecting the water fetching structure The water risen, the cloth water-bound that catchments are at least partially disposed in above the heat exchanger, for will change described in the water being collected into guiding Hot device；The air processor further includes processor, memory and is stored on the memory and can be in the processing The control program of the air processor run on device, the heat exchanger are connected to the processor, the air processor Control program realize such as the control method of the described in any item air processors of claim 1-7 when being executed by processor Each step.

9. air processor as claimed in claim 8, which is characterized in that the air processor is window machine or air-conditioning Outdoor unit or mobile air conditioner.

10. a kind of computer readable storage medium, which is characterized in that the computer-readable recording medium storage has air-treatment The control program of device is realized when the control program of the air processor is executed by processor as claim 1-7 is any Each step of the control method of air processor described in.