CN107490050A - Moveable air conditioner and its control method and device - Google Patents
Moveable air conditioner and its control method and device Download PDFInfo
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- CN107490050A CN107490050A CN201710620481.XA CN201710620481A CN107490050A CN 107490050 A CN107490050 A CN 107490050A CN 201710620481 A CN201710620481 A CN 201710620481A CN 107490050 A CN107490050 A CN 107490050A
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- temperature difference
- rotating speed
- threshold
- temperature
- atomization
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/22—Means for preventing condensation or evacuating condensate
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/22—Means for preventing condensation or evacuating condensate
- F24F2013/228—Treatment of condensate, e.g. sterilising
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2221/00—Details or features not otherwise provided for
- F24F2221/12—Details or features not otherwise provided for transportable
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a kind of moveable air conditioner and its control method and device, wherein, moveable air conditioner include evaporator, condenser, the motor exhaust for the air at condenser to be expelled to outdoor, for smoking and drenching to the water drenching water pump of condenser and for condensed water to be carried out to the atomization motor of atomization process, this method comprises the following steps condensed water:When moveable air conditioner refrigerating operaton, the middle portion temperature and outlet temperature of evaporator are detected, and detects the middle portion temperature and outlet temperature of condenser;The outlet temperature of evaporator and the difference of middle portion temperature are calculated to obtain the first temperature difference, and calculates the outlet temperature of condenser and the difference of middle portion temperature is poor to obtain second temperature;Obtain the continuous working period of moveable air conditioner;Motor exhaust, water drenching water pump and atomization motor are controlled according to continuous working period, the first temperature difference and second temperature difference.The method according to the invention, moveable air conditioner normal operation can be ensured, and chassis structure can be simplified.
Description
Technical field
The present invention relates to technical field of air conditioner, more particularly to a kind of control method of moveable air conditioner, one kind
Non-transitorycomputer readable storage medium, a kind of control device of moveable air conditioner and a kind of moveable air conditioner.
Background technology
At present, moveable air conditioner can be by setting double water level switches, and combines and the control method of double water level switches is supervised
Control the water level of the condensed water on chassis.
On the one hand, double water level switches are set, the chassis structure complexity and cost of moveable air conditioner can be increased, influence work
Skill efficiency of assembling.
On the other hand, when evaporator surface temperature is less than indoor dew-point temperature, vapor meeting on the fin of evaporator
Condensed water is produced, if run in high temperature environments, substantial amounts of condensed water can be produced, collect in chassis water leg.In the control
Under method, as water leg water level constantly rises, when when chassis, water level reaches severe water level, the double water level switch controls of liquid level triggering
Motor exhaust low speed is run, and strengthens water cooling heat exchange to consume condensed water.However, if humidity is bigger, condensation water speed is produced just
Depletion rate can be more than, condensed water can be caused to be filled with water leg, so as to cause movable air conditioner because of the full protective condition of triggering water
Device influences Consumer's Experience by forced-stopping machine.
The content of the invention
It is contemplated that at least solves one of technical problem in above-mentioned technology to a certain extent.Therefore, the present invention
One purpose is to propose a kind of control method of moveable air conditioner, can effectively adjust the consumption speed of condensed water in chassis
Degree, moveable air conditioner normal operation is ensured, so as to greatly improve Consumer's Experience, and chassis structure can also be simplified.
Second object of the present invention is to propose a kind of non-transitorycomputer readable storage medium.
Third object of the present invention is to propose a kind of control device of moveable air conditioner.
Fourth object of the present invention is to propose a kind of moveable air conditioner.
To reach above-mentioned purpose, first aspect present invention embodiment proposes a kind of control method of moveable air conditioner,
Wherein, the moveable air conditioner includes evaporator, condenser, the row for the air at the condenser to be expelled to outdoor
Wind turbine, for smoking and drenching to the water drenching water pump of the condenser and for condensed water to be carried out into atomization process condensed water
Atomization motor, the control method comprises the following steps:When the moveable air conditioner refrigerating operaton, the evaporation is detected
The middle portion temperature and outlet temperature of device, and detect the middle portion temperature and outlet temperature of the condenser;Calculate the evaporator
Outlet temperature and the difference of middle portion temperature to obtain the first temperature difference, and calculate the condenser outlet temperature and middle portion temperature it
Difference is poor to obtain second temperature;Obtain the continuous working period of the moveable air conditioner;According to the continuous working period, institute
The first temperature difference and the second temperature difference is stated to control the motor exhaust, the water drenching water pump and the atomization motor
System.
The control method of moveable air conditioner according to embodiments of the present invention, when moveable air conditioner refrigerating operaton, inspection
The middle portion temperature and outlet temperature of evaporator are surveyed, and detects the middle portion temperature and outlet temperature of condenser, and is obtained portable
The continuous working period of air conditioner, then according to continuous working period, the difference of the outlet temperature of evaporator and middle portion temperature, condensation
The outlet temperature of device and the difference of middle portion temperature are controlled to motor exhaust, water drenching water pump and atomization motor.Thereby, it is possible to effective
The depletion rate of condensed water, ensures moveable air conditioner normal operation in ground regulation chassis, so as to greatly improve Consumer's Experience, and
And chassis structure can also be simplified.
In addition, the control method of the moveable air conditioner proposed according to the above embodiment of the present invention can also be with following attached
The technical characteristic added:
Specifically, according to the continuous working period, first temperature difference and the second temperature difference to the air draft
Motor, the water drenching water pump and the atomization motor are controlled, including:When the continuous working period, which reaches first, presets
Between when, judge whether first temperature difference is less than whether first threshold and the second temperature difference are less than Second Threshold;If
First temperature difference is more than or equal to the first threshold and second temperature difference is more than or equal to the Second Threshold, then controls
The rotating speed of the motor exhaust is reduced to the second air draft rotating speed by the first air draft rotating speed, wherein, the first air draft rotating speed is more than
The second air draft rotating speed.
Specifically, according to the continuous working period, first temperature difference and the second temperature difference to the air draft
Motor, the water drenching water pump and the atomization motor are controlled, in addition to:Preset when the continuous working period reaches second
During the time, judge whether first temperature difference is less than the first threshold and whether the second temperature difference is less than described second
Threshold value, wherein, second preset time is more than first preset time;If first temperature difference is more than or equal to described
First threshold and second temperature difference is more than or equal to the Second Threshold, then control water drenching water pump unlatching;It is if described
First temperature difference is less than the first threshold or second temperature difference is less than the Second Threshold, then controls the motor exhaust
Rotating speed improve to the first air draft rotating speed.
Specifically, according to the continuous working period, first temperature difference and the second temperature difference to the air draft
Motor, the water drenching water pump and the atomization motor are controlled, in addition to:Preset when the continuous working period reaches the 3rd
During the time, judge whether first temperature difference is less than the first threshold and whether the second temperature difference is less than described second
Threshold value, wherein, the 3rd preset time is more than second preset time;If first temperature difference is more than or equal to described
First threshold and the second temperature difference be more than or equal to the Second Threshold, then control it is described be atomized motor rotating speed by the first mist
Change rotating speed to improve to the second atomization rotating speed, wherein, the second atomization rotating speed is more than the described first atomization rotating speed;If described
One temperature difference is less than the first threshold or second temperature difference is less than the Second Threshold, then controls the water drenching water pump to close
Close, and control the rotating speed of the motor exhaust to improve to the first air draft rotating speed.
Specifically, according to the continuous working period, first temperature difference and the second temperature difference to the air draft
Motor, the water drenching water pump and the atomization motor are controlled, in addition to:Preset when the continuous working period reaches the 4th
During the time, judge whether first temperature difference is less than the first threshold and whether the second temperature difference is less than described second
Threshold value, wherein, the 4th preset time is more than the 3rd preset time;If first temperature difference is more than or equal to described
First threshold and second temperature difference is more than or equal to the Second Threshold, then control the rotating speed for being atomized motor by described the
Two atomization rotating speeds are improved to the 3rd atomization rotating speed, wherein, the 3rd atomization rotating speed is more than the described second atomization rotating speed;If institute
State the first temperature difference and be less than the Second Threshold less than the first threshold or second temperature difference, then control the atomization electricity
The rotating speed of machine is reduced to the first atomization rotating speed, and controls the water drenching water pump to close, and the control motor exhaust
Rotating speed is improved to the first air draft rotating speed.
To reach above-mentioned purpose, second aspect of the present invention embodiment proposes a kind of non-transitory computer-readable storage medium
Matter, computer program is stored thereon with, wherein, the program realizes that first aspect present invention embodiment proposes when being executed by processor
Moveable air conditioner control method.
Non-transitorycomputer readable storage medium according to embodiments of the present invention, by the computer journey for performing its storage
Sequence, the depletion rate of condensed water in chassis can be effectively adjusted, moveable air conditioner normal operation be ensured, so as to greatly improve
Consumer's Experience, and chassis structure can also be simplified.
To reach above-mentioned purpose, third aspect present invention embodiment proposes a kind of control device of moveable air conditioner,
Wherein, the moveable air conditioner includes evaporator, condenser, the row for the air at the condenser to be expelled to outdoor
Wind turbine, for smoking and drenching to the water drenching water pump of the condenser and for condensed water to be carried out into atomization process condensed water
Atomization motor, the control device includes:Detection module, in the moveable air conditioner refrigerating operaton, detecting institute
The middle portion temperature and outlet temperature of evaporator are stated, and detects the middle portion temperature and outlet temperature of the condenser;Computing module, use
In the outlet temperature of the calculating evaporator and the difference of middle portion temperature to obtain the first temperature difference, and calculate going out for the condenser
Mouth temperature and the difference of middle portion temperature are poor to obtain second temperature;Acquisition module, for obtaining continuing for the moveable air conditioner
Run time;Control module, for according to the continuous working period, first temperature difference and the second temperature difference to institute
Motor exhaust, the water drenching water pump and the atomization motor is stated to be controlled.
The control device of moveable air conditioner according to embodiments of the present invention, can in moveable air conditioner refrigerating operaton
The middle portion temperature and outlet temperature of evaporator are detected by detection module, and detects the middle portion temperature and outlet temperature of condenser,
And the continuous working period of moveable air conditioner is obtained by acquisition module, during then by control module according to continuous service
Between, the outlet temperature of evaporator and the difference of middle portion temperature and the outlet temperature of condenser and the difference of middle portion temperature to motor exhaust,
Water drenching water pump and atomization motor are controlled, and thereby, it is possible to effectively adjust the depletion rate of condensed water in chassis, ensure movement
Formula air conditioner normal operation, so as to greatly improve Consumer's Experience, and chassis structure can also be simplified.
In addition, the control device of the moveable air conditioner proposed according to the above embodiment of the present invention can also be with following attached
The technical characteristic added:
Specifically, the control module is used for when reaching the first preset time in the continuous working period, described in judgement
First temperature difference whether is less than first threshold and whether the second temperature difference is less than Second Threshold, and in first temperature difference
More than or equal to the first threshold and the second temperature is poor be more than or equal to the Second Threshold when, control the motor exhaust
Rotating speed is reduced to the second air draft rotating speed by the first air draft rotating speed, wherein, the first air draft rotating speed turns more than second air draft
Speed.
Specifically, the control module is additionally operable to, when reaching the second preset time in the continuous working period, judge institute
State whether the first temperature difference is less than the first threshold and whether the second temperature difference is less than the Second Threshold, and described
First temperature difference is more than or equal to the first threshold and second temperature difference is when being more than or equal to the Second Threshold, described in control
Water drenching water pump is opened, and is less than the first threshold or second temperature difference less than described second in first temperature difference
During threshold value, the rotating speed of the motor exhaust is controlled to improve to the first air draft rotating speed, wherein, second preset time is more than
First preset time.
Specifically, the control module is additionally operable to, when reaching three preset times in the continuous working period, judge institute
State whether the first temperature difference is less than the first threshold and whether the second temperature difference is less than the Second Threshold, and described
First temperature difference is more than or equal to the first threshold and second temperature difference is when being more than or equal to the Second Threshold, described in control
The rotating speed for being atomized motor is improved to the second atomization rotating speed by the first atomization rotating speed, and is less than described the in first temperature difference
When one threshold value or second temperature difference are less than the Second Threshold, the water drenching water pump is controlled to close, and control the air draft
The rotating speed of motor is improved to the first air draft rotating speed, wherein, the 3rd preset time is more than second preset time, institute
The second atomization rotating speed is stated more than the described first atomization rotating speed.
Specifically, the control module is additionally operable to, when reaching four preset times in the continuous working period, judge institute
State whether the first temperature difference is less than the first threshold and whether the second temperature difference is less than the Second Threshold, and described
First temperature difference is more than or equal to the first threshold and second temperature difference is when being more than or equal to the Second Threshold, described in control
The rotating speed for being atomized motor is improved to the 3rd atomization rotating speed by the described second atomization rotating speed, and is less than institute in first temperature difference
First threshold or second temperature difference are stated when being less than the Second Threshold, control the atomization motor rotating speed be reduced to described in
First atomization rotating speed, and control the water drenching water pump to close, and the rotating speed of the control motor exhaust is improved to described first
Air draft rotating speed, wherein, the 4th preset time is more than the 3rd preset time, and the 3rd atomization rotating speed is more than described the
Two atomization rotating speeds.
To reach above-mentioned purpose, fourth aspect present invention embodiment proposes a kind of moveable air conditioner.
The moveable air conditioner of the embodiment of the present invention, including the moveable air conditioner that third aspect present invention embodiment proposes
Control device.
Moveable air conditioner according to embodiments of the present invention, the depletion rate of condensed water in chassis can be effectively adjusted,
Its normal operation is ensured, so as to greatly improve Consumer's Experience, and chassis structure is relatively simple.
Brief description of the drawings
Fig. 1 is the structural representation according to the moveable air conditioner chassis of one embodiment of the invention;
Fig. 2 is the flow chart according to the control method of the moveable air conditioner of the embodiment of the present invention;
Fig. 3 is the water level schematic diagram according to the condensed water of one embodiment of the invention;
Fig. 4 is the flow chart according to the control method of the moveable air conditioner of a specific embodiment of the invention;
Fig. 5 is the block diagram according to the control device of the moveable air conditioner of the embodiment of the present invention.
Embodiment
Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end
Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.
The moveable air conditioner of the embodiment of the present invention and its control method and device described below in conjunction with the accompanying drawings.
It should be noted that the moveable air conditioner of the embodiment of the present invention includes evaporator, condenser, for by condenser
The air at place be expelled to outdoor motor exhaust, for by condensed water smoke and drench to the water drenching water pump of condenser and for will
Condensed water carries out the atomization motor of atomization process.Condenser, motor exhaust, water drenching water pump and atomization motor may be disposed at movable type
In the chassis of air conditioner.Wherein, reference picture 1, water drenching water pump can be by the way that the condensed water in the water leg on chassis be smoked simultaneously
Leaching to condenser surface, atomization motor can fetch water wheel operating to realize the atomization to the condensed water in water leg by driving.
Fig. 2 is the flow chart according to the control method of the moveable air conditioner of the embodiment of the present invention.
As shown in Fig. 2 the control method of the moveable air conditioner of the embodiment of the present invention, comprises the following steps:
S1, when moveable air conditioner refrigerating operaton, the middle portion temperature and outlet temperature of evaporator are detected, and detect condensation
The middle portion temperature and outlet temperature of device.
Specifically, can by relevant position, temperature sensor is set respectively with detect respectively the middle portion temperature of evaporator and
The middle portion temperature and outlet temperature of outlet temperature and condenser.
It should be noted that in the running of moveable air conditioner, can constantly detect evaporator middle portion temperature and
The middle portion temperature and outlet temperature of outlet temperature and condenser, can also reach respectively in the continuous working period the first preset time,
After second preset time, the 3rd preset time and the 4th preset time, the middle portion temperature and outlet temperature and cold of evaporator are detected
The middle portion temperature and outlet temperature of condenser.
S2, the middle portion temperature of evaporator and the difference of outlet temperature are calculated to obtain the first temperature difference, and calculate condenser
The difference of middle portion temperature and outlet temperature is poor to obtain second temperature.
It should be noted that when evaporator or condenser include multiple pipelines, can detect in each pipeline of evaporator
Portion's temperature and outlet temperature, the middle portion temperature of each pipeline of evaporator and the difference of outlet temperature are calculated, and take each pipe of evaporator
The middle portion temperature on road and the average value of the difference of outlet temperature are as the first temperature difference.Similarly, it can detect each pipeline of condenser
Middle portion temperature and outlet temperature, calculate the middle portion temperature of each pipeline of condenser and the difference of outlet temperature, and take condenser each
The middle portion temperature of individual pipeline and the average value of the difference of outlet temperature are poor as second temperature.
For example, evaporator and condenser include two pipelines, can detect the middle part of two pipelines of evaporator respectively
Temperature Tem1、Tem2With outlet temperature Teo1、Teo2, and the middle portion temperature T of two pipelines of condenser is detected respectivelycm1、Tcm2And outlet
Temperature Tco1、Tco2, then can pass through formula Te=[(Teo1-Tem1)+(Teo2-Tem2)]/2 the first temperature difference Te is calculated, and can
Pass through formula Tc=[(Tco1-Tcm1)+(Tco2-Tcm2)]/2 calculate second temperature difference Tc.
S3, obtain the continuous working period of moveable air conditioner.
In one embodiment of the invention, can be obtained by the timer set inside moveable air conditioner portable empty
Adjust the continuous working period of device.
S4, according to continuous working period, the first temperature difference and second temperature difference to motor exhaust, water drenching water pump and atomization electricity
Machine is controlled.
As shown in figure 3, ordinary water level and severe water level can be divided according to the height of water level in water leg, wherein, when catchmenting
When the water level of condensed water reaches under ordinary water level in groove, it is not easy to the full protective condition of water is triggered, and when condensed water in water leg
Water level when reaching severe water level, the full protective condition of water is easily triggered, so as to influence the normal operation of moveable air conditioner.Cause
This, in one embodiment of the invention, can be by being controlled to control bottom to motor exhaust, water drenching water pump and atomization motor
The depletion rate of condensed water in disk, to control the water level of condensed water in water leg as much as possible under severe water level.At this
In one embodiment of invention, severe water level can be half for taking turns radius R or so of fetching water, i.e., severe water level is approximately equal to 1/2*
R;Ordinary water level, which is smaller than being equal to fetching water, takes turns 1/3rd of radius R, i.e. ordinary water level is less than or equal to 1/3*R.
In one embodiment of the invention, when reaching the first preset time in the continuous working period, it can determine whether the first temperature
Degree difference whether is less than first threshold and whether second temperature difference is less than Second Threshold.If the first temperature difference is more than or equal to the first threshold
It is worth and second temperature difference is more than or equal to Second Threshold, then controls the rotating speed of motor exhaust to be reduced to second row by the first air draft rotating speed
Wind rotating speed, to strengthen the consumption that water cooling exchanges heat to condensed water.Wherein, the first air draft rotating speed is more than the second air draft rotating speed.If the
One temperature difference is less than first threshold or second temperature difference is less than Second Threshold, then can obtain the stabilization of evaporator and condenser tube temperature
Situation, and control moveable air conditioner to continue to run with high wind refrigerating state according to stable case.
In one embodiment of the invention, when reaching the second preset time in the continuous working period, it can determine whether the first temperature
Degree difference whether is less than first threshold and whether second temperature difference is less than Second Threshold, wherein, it is pre- that the second preset time is more than first
If the time.If the first temperature difference is more than or equal to first threshold and second temperature difference is more than or equal to Second Threshold, water drenching is controlled
Water pump is opened, by smoking and drenching to condenser surface to accelerate the consumption of condensed water the condensed water in the water leg of chassis.Such as
The temperature difference of fruit first is less than first threshold or second temperature difference is less than Second Threshold, then the rotating speed of control motor exhaust is improved to the
One air draft rotating speed, so that moveable air conditioner is run under high wind refrigerating state.
In one embodiment of the invention, when reaching three preset times in the continuous working period, the first temperature is judged
Difference whether is less than first threshold and whether second temperature difference is less than Second Threshold, wherein, it is default that the 3rd preset time is more than second
Time.If the first temperature difference is more than or equal to first threshold and second temperature difference is more than or equal to Second Threshold, control atomization electricity
The rotating speed of machine is improved to the second atomization rotating speed, to be carried out by improving to the condensed water in the water leg of chassis by the first atomization rotating speed
The speed of atomization accelerates the consumption of condensed water.Wherein, the second atomization rotating speed is more than the first atomization rotating speed.If the first temperature difference
It is poor less than first threshold or second temperature to be less than Second Threshold, then control water drenching water pump to close, and control the rotating speed of motor exhaust
Improve to the first air draft rotating speed, so that moveable air conditioner is run under high wind refrigerating state.
In one embodiment of the invention, when reaching four preset times in the continuous working period, it can determine whether the first temperature
Degree difference whether is less than first threshold and whether second temperature difference is less than Second Threshold, wherein, it is pre- that the 4th preset time is more than the 3rd
If the time;If the first temperature difference is more than or equal to first threshold and second temperature difference is more than or equal to Second Threshold, control atomization
The rotating speed of motor is improved to the 3rd atomization rotating speed by the second atomization rotating speed, to continue to improve to enter the condensed water in the water leg of chassis
The speed of row atomization further speeds up the consumption of condensed water.Wherein, the 3rd atomization rotating speed is more than the second atomization rotating speed.If the
One temperature difference is less than first threshold or second temperature difference is less than Second Threshold, then the rotating speed of control atomization motor is reduced to the first mist
Change rotating speed, and control water drenching water pump to close, and the rotating speed of control motor exhaust is improved to the first air draft rotating speed, so that portable
Air conditioner is run under high wind refrigerating state.
In one embodiment of the invention, the first preset time, the second preset time, the 3rd preset time and the 4th are pre-
If the value of time can be preset, and be stored, so as to motor exhaust, water drenching water pump and the control process for being atomized motor
Middle calling.In one particular embodiment of the present invention, the span of the first preset time is 30min to 35min, and second is pre-
If the span of time is 40min to 50min, the span of the 3rd preset time is 50min to 65min, and the 4th is default
The span of time is 60min to 80min.
In one embodiment of the invention, first threshold can be that the water level of condensed water reaches severe water level in water leg
And when moveable air conditioner operates in low wind refrigerating state, the middle portion temperature of evaporator and the difference of outlet temperature, with water leg
When the water level of middle condensed water reaches ordinary water level and moveable air conditioner operates in high wind refrigeration stable state, in evaporator
The difference of the difference of portion's temperature and outlet temperature.Second Threshold can be, in water leg the water level of condensed water reach severe water level and
When moveable air conditioner operates in low wind refrigerating state, the middle portion temperature of condenser and the difference of outlet temperature are and cold in water leg
When the water level of condensate reaches ordinary water level and moveable air conditioner operates in high wind refrigeration stable state, the middle part temperature of condenser
The difference of the difference of degree and outlet temperature.When evaporator and condenser include a plurality of pipeline, first threshold T1 is cold in water leg
When the water level of condensate reaches severe water level and moveable air conditioner is operated under low wind refrigerating state, each pipeline of evaporator
The average value Te of the difference of middle portion temperature and outlet temperatureBadly, when reaching ordinary water level with the water level of condensed water in water leg and move
Dynamic formula air conditioner is operated under high wind refrigeration stable state, the middle portion temperature of each pipeline of evaporator and the difference of outlet temperature it is flat
Average TeNormallyDifference, i.e. T1=TeBadly-TeNormally;First threshold T1 is that the water level that Second Threshold T2 is condensed water in water leg reaches
When operating in low wind refrigerating state to severe water level and moveable air conditioner, the middle portion temperature of each pipeline of condenser and outlet
The average value Tc of temperature differenceBadly, reach ordinary water level with the water level of condensed water in water leg and moveable air conditioner operate in
During high wind refrigeration stable state, the average value Tc of the middle portion temperature of each pipeline of condenser and the difference of outlet temperatureNormallyDifference,
That is T2=TcBadly-TcNormally.In one particular embodiment of the present invention, first threshold T1 span can be 1.2 DEG C to 2.5
DEG C, Second Threshold T2 span can be 3 DEG C to 4 DEG C.
As shown in figure 4, in one particular embodiment of the present invention, the control method of moveable air conditioner may include following
Step:
S301, moveable air conditioner operate in high wind refrigeration mode.
S302, after running t1, the middle portion temperature and outlet temperature of each pipeline of evaporator of moveable air conditioner are detected, and
The middle portion temperature and outlet temperature of each pipeline of condenser are detected, calculates its temperature difference respectively, and calculate Te, Tc.Wherein, t1
Span is 30min to 35min.
S303, determine whether Te >=T1 and Tc >=T2.If it is, perform step S304;If it is not, then perform step
S302。
S304, the rotating speed of motor exhaust is controlled to be down to the second air draft rotating speed by the first air draft rotating speed.Wherein, the first air draft turns
Speed is more than the second air draft rotating speed.
S305, after running t2, the middle portion temperature and outlet temperature of each pipeline of evaporator of moveable air conditioner are detected, and
The middle portion temperature and outlet temperature of each pipeline of condenser are detected, calculates its temperature difference respectively, and calculate Te, Tc.Wherein, t2
Span is 10min to 15min.
S306, determine whether Te >=T1 and Tc >=T2.If it is, perform step S308;If it is not, then perform step
S307。
S307, the rotating speed of motor exhaust is controlled to improve to the first air draft rotating speed.Execution of step S307, then perform step
S302。
S308, control water drenching water pump are opened.
S309, after running t3, the middle portion temperature and outlet temperature of each pipeline of evaporator of moveable air conditioner are detected, and
The middle portion temperature and outlet temperature of each pipeline of condenser are detected, calculates its temperature difference respectively, and calculate Te, Tc.Wherein, t3
Span is 10min to 15min.
S310, determine whether Te >=T1 and Tc >=T2.If it is, perform step S312;If it is not, then perform step
S311。
S311, control water drenching water pump are closed.Execution of step S311, then perform step S307.
S312, the rotating speed of control atomization motor are improved to the second atomization rotating speed by the first atomization rotating speed.Wherein, the second atomization
Rotating speed is more than the first atomization rotating speed.
S313, after running t4, the middle portion temperature and outlet temperature of each pipeline of evaporator of moveable air conditioner are detected, and
The middle portion temperature and outlet temperature of each pipeline of condenser are detected, calculates temperature difference respectively, and calculate Te, Tc.Wherein, t4 takes
Value scope is 10min to 15min.
S314, determine whether Te >=T1 and Tc >=T2.If it is, perform step S316;If it is not, then perform step
S315。
S315, the rotating speed of control atomization motor is reduced to the first atomization rotating speed, and controls water drenching water pump to close, and control
The rotating speed of motor exhaust is improved to the first air draft rotating speed.Execution of step S315, then perform step S302.
S316, the rotating speed of control atomization motor are improved to the 3rd atomization rotating speed by the second atomization rotating speed.Wherein, the 3rd atomization
Rotating speed is more than the second atomization rotating speed.
The control method of moveable air conditioner according to embodiments of the present invention, when moveable air conditioner refrigerating operaton, inspection
The middle portion temperature and outlet temperature of evaporator are surveyed, and detects the middle portion temperature and outlet temperature of condenser, and is obtained portable
The continuous working period of air conditioner, then according to continuous working period, the difference of the outlet temperature of evaporator and middle portion temperature, condensation
The outlet temperature of device and the difference of middle portion temperature are controlled to motor exhaust, water drenching water pump and atomization motor.Thereby, it is possible to effective
The depletion rate of condensed water, ensures moveable air conditioner normal operation in ground regulation chassis, so as to greatly improve Consumer's Experience, and
And chassis structure can also be simplified.
Corresponding above-described embodiment, the present invention also propose a kind of non-transitorycomputer readable storage medium.
The non-transitorycomputer readable storage medium of the embodiment of the present invention, is stored with computer program, wherein when the journey
When sequence is executed by processor, the control method for the moveable air conditioner that the above embodiment of the present invention proposes can be achieved.
Non-transitorycomputer readable storage medium according to embodiments of the present invention, by the computer journey for performing its storage
Sequence, the depletion rate of condensed water in chassis can be effectively adjusted, moveable air conditioner normal operation be ensured, so as to greatly improve
Consumer's Experience, and chassis structure can also be simplified.
Corresponding above-described embodiment, the present invention also propose a kind of control device of moveable air conditioner.
As shown in figure 5, the control device of the moveable air conditioner of the embodiment of the present invention, including detection module 10, calculating mould
Block 20, acquisition module 30 and control module 40.
It should be noted that the moveable air conditioner of the embodiment of the present invention includes evaporator, condenser, for by condenser
The air at place be expelled to outdoor motor exhaust, for by condensed water smoke and drench to the water drenching water pump of condenser and for will
Condensed water carries out the atomization motor of atomization process.Condenser, motor exhaust, water drenching water pump and atomization motor may be disposed at movable type
In the chassis of air conditioner.Wherein, reference picture 1, water drenching water pump can be by the way that the condensed water in the water leg 400 on chassis be smoked
And drench to the surface of condenser 100, atomization motor 200 and can fetch water the operating of wheel 300 by driving to realize to cold in water leg 400
The atomization of condensate.
Wherein, detection module 10 is used in moveable air conditioner refrigerating operaton, detects the middle portion temperature of evaporator and goes out
Mouth temperature, and detect the middle portion temperature and outlet temperature of condenser 100;Computing module 20 is used for the outlet temperature for calculating evaporator
Difference with middle portion temperature calculates the outlet temperature of condenser 100 and the difference of middle portion temperature to obtain to obtain the first temperature difference
Second temperature is poor;Acquisition module 30 is used for the continuous working period for obtaining moveable air conditioner;Control module 40 is used for basis and held
Continuous run time, the first temperature difference and second temperature difference are controlled to motor exhaust, water drenching water pump and atomization motor 200.
Specifically, detection module 10 can be temperature sensor, can by set respectively in relevant position temperature sensor with
The middle portion temperature and the middle portion temperature and outlet temperature of outlet temperature and condenser 100 of evaporator are detected respectively.
Acquisition module 30 can be the timer set inside moveable air conditioner, obtain the continuous service of moveable air conditioner
Time.
It should be noted that in the running of moveable air conditioner, detection module 10 can constantly detect evaporator
The middle portion temperature and outlet temperature of middle portion temperature and outlet temperature and condenser 100, can also reach in the continuous working period respectively
After first preset time, the second preset time, the 3rd preset time and the 4th preset time, detect evaporator middle portion temperature and
The middle portion temperature and outlet temperature of outlet temperature and condenser 100.
It should be noted that when evaporator and condenser 100 include a plurality of pipeline, detection module 10 can detect evaporator
The middle portion temperature and outlet temperature of each pipeline, computing module 20 can calculate the middle portion temperature and outlet temperature of each pipeline of evaporator
The difference of degree, and the middle portion temperature of each pipeline of evaporator and the average value of the difference of outlet temperature are taken as the first temperature difference.Equally
Ground, detection module 10 can detect the middle portion temperature and outlet temperature of 100 each pipeline of condenser, and computing module 20 can calculate condensation
The middle portion temperature of 100 each pipeline of device and the difference of outlet temperature, and take the middle portion temperature and outlet temperature of each pipeline of condenser
Difference average value it is poor as second temperature.
For example, evaporator and condenser 100 include two pipelines, and detection module 10 can detect evaporator two respectively
The middle portion temperature T of pipelineem1、Tem2With outlet temperature Teo1、Teo2, and the middle portion temperature T of two pipelines of condenser is detected respectivelycm1、
Tcm2With outlet temperature Tco1、Tco2, then computing module 20 can pass through formula Te=[(Teo1-Tem1)+(Teo2-Tem2)]/2 calculate
Go out the first temperature difference Te, and formula Tc=[(T can be passed throughco1-Tcm1)+(Tco2-Tcm2)]/2 calculate second temperature difference Tc.
As shown in figure 3, ordinary water level and severe water level can be divided according to the height of water level in water leg 400, wherein, work as collection
When the water level of condensed water reaches under ordinary water level in tank 400, it is not easy to trigger the full protective condition of water, and work as water leg 400
In the water level of condensed water when reaching severe water level, the full protective condition of water is easily triggered, so as to influence moveable air conditioner just
Often operation.Therefore, in one embodiment of the invention, can be by control module 40 to motor exhaust, water drenching water pump and atomization
Motor is controlled to control the depletion rate of the condensed water in chassis, to control the water level of condensed water in water leg 400 to the greatest extent may be used
Energy ground is under severe water level.In one embodiment of the invention, severe water level can be the half fetched water and take turns radius R
Left and right, i.e., severe water level are approximately equal to 1/2*R;Ordinary water level is smaller than being equal to fetch water 1/3rd of wheel radius R, i.e. ordinary water level
Less than or equal to 1/3*R.
In one embodiment of the invention, when reaching the first preset time in the continuous working period, control module 40 can
Judge whether the first temperature difference is less than first threshold and whether second temperature difference is less than Second Threshold, and be more than in the first temperature difference
Equal to first threshold and second temperature is poor be more than or equal to Second Threshold when, control the rotating speed of motor exhaust to be dropped by the first air draft rotating speed
As little as the second air draft rotating speed, to strengthen the consumption that water cooling exchanges heat to condensed water.It is less than first threshold or second in the first temperature difference
When temperature difference is less than Second Threshold, control module 40 can control portable empty according to the stable case of evaporator and condenser tube temperature
Device is adjusted to continue to run with high wind refrigerating state.Wherein, the first air draft rotating speed is more than the second air draft rotating speed.
In one embodiment of the invention, when reaching the second preset time in the continuous working period, control module 40 can
Judge whether the first temperature difference is less than first threshold and whether second temperature difference is less than Second Threshold.Be more than in the first temperature difference etc.
In first threshold and second temperature difference be more than or equal to Second Threshold when, control module 40 can control water drenching water pump unlatching, pass through by
Condensed water in chassis water leg 400 is smoked and drenched to condenser surface to accelerate the consumption of condensed water.It is small in the first temperature difference
When first threshold or second temperature difference are less than Second Threshold, control module 40 can control the rotating speed of motor exhaust to improve to first
Air draft rotating speed, so that moveable air conditioner is run under high wind refrigerating state.Wherein, when the second preset time is default more than first
Between.
In one embodiment of the invention, when reaching three preset times in the continuous working period, control module 40 can
Judge whether the first temperature difference is less than first threshold and whether second temperature difference is less than Second Threshold.Be more than in the first temperature difference etc.
When first threshold and second temperature difference are more than or equal to Second Threshold, the controllable rotating speed for being atomized motor 200 of control module 40 by
First atomization rotating speed is improved to the second atomization rotating speed, with what is be atomized by improving to the condensed water in chassis water leg 400
Speed accelerates the consumption of condensed water.When the first temperature difference is less than first threshold or second temperature difference is less than Second Threshold, control
Molding block 40 can control water drenching water pump to close, and control the rotating speed of motor exhaust to improve to the first air draft rotating speed, so that portable
Air conditioner is run under high wind refrigerating state.Wherein, the 3rd preset time is more than the second preset time, and the second atomization rotating speed is more than
First atomization rotating speed.
In one embodiment of the invention, when reaching four preset times in the continuous working period, control module 40 can
Judge whether the first temperature difference is less than first threshold and whether second temperature difference is less than Second Threshold.Be more than in the first temperature difference etc.
When first threshold and second temperature difference are more than or equal to Second Threshold, the controllable rotating speed for being atomized motor of control module 40 is by second
Atomization rotating speed is improved to the 3rd atomization rotating speed, to continue to improve the speed for being atomized the condensed water in chassis water leg 400
To further speed up the consumption of condensed water.When the first temperature difference is less than first threshold or second temperature difference is less than Second Threshold,
The rotating speed of the controllable atomization motor 200 of control module 40 is reduced to the first atomization rotating speed, and controls water drenching water pump to close, and control
The rotating speed of motor exhaust processed is improved to the first air draft rotating speed, so that moveable air conditioner is run under high wind refrigerating state.Wherein,
4th preset time is more than the 3rd preset time, and the 3rd atomization rotating speed is more than the second atomization rotating speed.
In one embodiment of the invention, the first preset time, the second preset time, the 3rd preset time and the 4th are pre-
If the value of time can be preset, and be stored, so as to motor exhaust, water drenching water pump and the control process for being atomized motor
Middle calling.In one particular embodiment of the present invention, the span of the first preset time is 30min to 35min, and second is pre-
If the span of time is 40min to 50min, the span of the 3rd preset time is 50min to 65min, and the 4th is default
The span of time is 60min to 80min.
In one embodiment of the invention, first threshold can be that the water level of condensed water reaches severe water in water leg 400
During position and moveable air conditioner is operated under low wind refrigerating state, the middle portion temperature of evaporator and the difference of outlet temperature, with collection
When the water level of condensed water reaches ordinary water level in tank 400 and moveable air conditioner is operated under high wind refrigeration stable state,
The difference of the middle portion temperature of evaporator and the difference of outlet temperature.Second Threshold can be that the water level of condensed water reaches in water leg 400
Severe water level and when moveable air conditioner operates in low wind refrigerating state, the middle portion temperature and outlet temperature of condenser 100 it
The water level of condensed water reaches ordinary water level in difference, with water leg and moveable air conditioner operates in high wind refrigeration stable state
When, the difference of the middle portion temperature of condenser 100 and the difference of outlet temperature.When evaporator and condenser 100 include a plurality of pipeline,
First threshold T1 is when the water level of condensed water in water leg 400 reaches severe water level and moveable air conditioner operates in low wind system
Under cold state, the average value Te of the middle portion temperature of each pipeline of evaporator and the difference of outlet temperatureBadly, with being condensed in water leg 400
When the water level of water reaches ordinary water level and moveable air conditioner is operated under high wind refrigeration stable state, each pipeline of evaporator
Middle portion temperature and outlet temperature difference average value TeNormallyDifference, i.e. T1=TeBadly-TeNormally.Second Threshold T2 is water leg
When the water level of condensed water reaches severe water level in 400 and moveable air conditioner is operated under low wind refrigerating state, condenser 100
The average value Tc of the middle portion temperature of each pipeline and the difference of outlet temperatureBadly, reach just with the water level of condensed water in water leg 400
During ordinary water level and moveable air conditioner is operated under high wind refrigeration stable state, the middle portion temperature of 100 each pipeline of condenser
With the average value Tc of the difference of outlet temperatureNormallyDifference, i.e. T2=TcBadly-TcNormally.In one particular embodiment of the present invention,
First threshold T1 span can be 1.2 DEG C to 2.5 DEG C, and Second Threshold T2 span can be 3 DEG C to 4 DEG C.
The control device of moveable air conditioner according to embodiments of the present invention, can in moveable air conditioner refrigerating operaton
The middle portion temperature and outlet temperature of evaporator are detected by detection module, and detects the middle portion temperature and outlet temperature of condenser,
And the continuous working period of moveable air conditioner is obtained by acquisition module, during then by control module according to continuous service
Between, the outlet temperature of evaporator and the difference of middle portion temperature and the outlet temperature of condenser and the difference of middle portion temperature to motor exhaust,
Water drenching water pump and atomization motor are controlled, and thereby, it is possible to effectively adjust the depletion rate of condensed water in chassis, ensure movement
Formula air conditioner normal operation, so as to greatly improve Consumer's Experience, and chassis structure can also be simplified.
Corresponding above-described embodiment, the present invention also propose a kind of moveable air conditioner.
The moveable air conditioner of the embodiment of the present invention, include the control of the moveable air conditioner of the above embodiment of the present invention proposition
Device processed, its specific embodiment can refer to above-described embodiment, to avoid redundancy, will not be repeated here.
Moveable air conditioner according to embodiments of the present invention, the depletion rate of condensed water in chassis can be effectively adjusted,
Normal operation is ensured, so as to greatly improve Consumer's Experience, and chassis structure is relatively simple.
In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ",
" thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time
The orientation or position relationship of the instruction such as pin ", " counterclockwise ", " axial direction ", " radial direction ", " circumference " be based on orientation shown in the drawings or
Position relationship, it is for only for ease of and describes the present invention and simplify description, rather than indicates or imply that signified device or element must
There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or
Implicitly include one or more this feature.In the description of the invention, " multiple " are meant that two or more,
Unless otherwise specifically defined.
In the present invention, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " fixation " etc.
Term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally;Can be that machinery connects
Connect or electrically connect;Can be joined directly together, can also be indirectly connected by intermediary, can be in two elements
The connection in portion or the interaction relationship of two elements.For the ordinary skill in the art, can be according to specific feelings
Condition understands the concrete meaning of above-mentioned term in the present invention.
In the present invention, unless otherwise clearly defined and limited, fisrt feature can be with "above" or "below" second feature
It is that the first and second features directly contact, or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists
Second feature " on ", " top " and " above " but fisrt feature are directly over second feature or oblique upper, or be merely representative of
Fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be
One feature is immediately below second feature or obliquely downward, or is merely representative of fisrt feature level height and is less than second feature.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description
Point is contained at least one embodiment or example of the present invention.In this manual, to the schematic representation of above-mentioned term not
Identical embodiment or example must be directed to.Moreover, specific features, structure, material or the feature of description can be with office
Combined in an appropriate manner in one or more embodiments or example.In addition, in the case of not conflicting, the skill of this area
Art personnel can be tied the different embodiments or example and the feature of different embodiments or example described in this specification
Close and combine.
Although embodiments of the invention have been shown and described above, it is to be understood that above-described embodiment is example
Property, it is impossible to limitation of the present invention is interpreted as, one of ordinary skill in the art within the scope of the invention can be to above-mentioned
Embodiment is changed, changed, replacing and modification.
Claims (12)
1. a kind of control method of moveable air conditioner, it is characterised in that the moveable air conditioner includes evaporator, condensation
Device, for by the air at the condenser be expelled to outdoor motor exhaust, for smoking and drenching to described cold condensed water
The water drenching water pump of condenser and the atomization motor for condensed water to be carried out to atomization process, the control method include following step
Suddenly:
When the moveable air conditioner refrigerating operaton, the middle portion temperature and outlet temperature of the evaporator are detected, and detects institute
State the middle portion temperature and outlet temperature of condenser;
The outlet temperature of the evaporator and the difference of middle portion temperature are calculated to obtain the first temperature difference, and calculates the condenser
Outlet temperature and the difference of middle portion temperature are poor to obtain second temperature;
Obtain the continuous working period of the moveable air conditioner;
According to the continuous working period, first temperature difference and the second temperature difference to the motor exhaust, the leaching
Water water pump and the atomization motor are controlled.
2. the control method of moveable air conditioner according to claim 1, it is characterised in that during according to the continuous service
Between, first temperature difference and the second temperature difference enter to the motor exhaust, the water drenching water pump and the atomization motor
Row control, including:
When reaching the first preset time in the continuous working period, judge first temperature difference whether be less than first threshold and
Whether the second temperature difference is less than Second Threshold;
If first temperature difference is more than or equal to the first threshold and second temperature difference is more than or equal to second threshold
Value, then control the rotating speed of the motor exhaust to be reduced to the second air draft rotating speed by the first air draft rotating speed, wherein, first air draft
Rotating speed is more than the second air draft rotating speed.
3. the control method of moveable air conditioner according to claim 2, it is characterised in that during according to the continuous service
Between, first temperature difference and the second temperature difference enter to the motor exhaust, the water drenching water pump and the atomization motor
Row control, in addition to:
When reaching the second preset time in the continuous working period, judge whether first temperature difference is less than first threshold
Whether value and the second temperature difference are less than the Second Threshold, wherein, it is default that second preset time is more than described first
Time;
If first temperature difference is more than or equal to the first threshold and second temperature difference is more than or equal to second threshold
Value, then the water drenching water pump is controlled to open;
If first temperature difference is less than the first threshold or second temperature difference is less than the Second Threshold, control
The rotating speed of the motor exhaust is improved to the first air draft rotating speed.
4. the control method of moveable air conditioner according to claim 3, it is characterised in that during according to the continuous service
Between, first temperature difference and the second temperature difference enter to the motor exhaust, the water drenching water pump and the atomization motor
Row control, in addition to:
When reaching three preset times in the continuous working period, judge whether first temperature difference is less than first threshold
Whether value and the second temperature difference are less than the Second Threshold, wherein, it is default that the 3rd preset time is more than described second
Time;
If first temperature difference is more than or equal to the first threshold and second temperature difference is more than or equal to second threshold
Value, then the rotating speed of the atomization motor is controlled to be improved by the first atomization rotating speed to the second atomization rotating speed, wherein, second atomization
Rotating speed is more than the described first atomization rotating speed;
If first temperature difference is less than the first threshold or second temperature difference is less than the Second Threshold, control
The water drenching water pump is closed, and controls the rotating speed of the motor exhaust to improve to the first air draft rotating speed.
5. the control method of moveable air conditioner according to claim 4, it is characterised in that during according to the continuous service
Between, first temperature difference and the second temperature difference enter to the motor exhaust, the water drenching water pump and the atomization motor
Row control, in addition to:
When reaching four preset times in the continuous working period, judge whether first temperature difference is less than first threshold
Whether value and the second temperature difference are less than the Second Threshold, wherein, it is default that the 4th preset time is more than the described 3rd
Time;
If first temperature difference is more than or equal to the first threshold and second temperature difference is more than or equal to second threshold
Value, then the rotating speed of the atomization motor is controlled to be improved by the described second atomization rotating speed to the 3rd atomization rotating speed, wherein, the described 3rd
It is atomized rotating speed and is more than the described second atomization rotating speed;
If first temperature difference is less than the first threshold or second temperature difference is less than the Second Threshold, control
The rotating speed of the atomization motor is reduced to the first atomization rotating speed, and controls the water drenching water pump to close, and described in control
The rotating speed of motor exhaust is improved to the first air draft rotating speed.
6. a kind of non-transitorycomputer readable storage medium, is stored thereon with computer program, it is characterised in that the program quilt
The control method of the moveable air conditioner as described in any in claim 1-5 is realized during computing device.
7. a kind of control device of moveable air conditioner, it is characterised in that the moveable air conditioner includes evaporator, condensation
Device, for by the air at the condenser be expelled to outdoor motor exhaust, for smoking and drenching to described cold condensed water
The water drenching water pump of condenser and the atomization motor for condensed water to be carried out to atomization process, the control device include:
Detection module, in the moveable air conditioner refrigerating operaton, detecting middle portion temperature and the outlet of the evaporator
Temperature, and detect the middle portion temperature and outlet temperature of the condenser;
Computing module, for calculating the outlet temperature of the evaporator and the difference of middle portion temperature to obtain the first temperature difference, and count
Calculate the outlet temperature of the condenser and the difference of middle portion temperature is poor to obtain second temperature;
Acquisition module, for obtaining the continuous working period of the moveable air conditioner;
Control module, for according to the continuous working period, first temperature difference and the second temperature difference to the row
Wind turbine, the water drenching water pump and the atomization motor are controlled.
8. the control device of moveable air conditioner according to claim 7, it is characterised in that the control module is used for
When the continuous working period reaches the first preset time, judge whether first temperature difference is less than first threshold and described the
Whether two temperature differences are less than Second Threshold, and are more than or equal to the first threshold and the second temperature in first temperature difference
When difference is more than or equal to the Second Threshold, controls the rotating speed of the motor exhaust to be reduced to the second air draft by the first air draft rotating speed and turn
Speed, wherein, the first air draft rotating speed is more than the second air draft rotating speed.
9. the control device of moveable air conditioner according to claim 8, it is characterised in that the control module is additionally operable to
When reaching the second preset time in the continuous working period, judge first temperature difference whether be less than the first threshold and
Whether the second temperature difference is less than the Second Threshold, and is more than or equal to the first threshold and institute in first temperature difference
Second temperature difference is stated when being more than or equal to the Second Threshold, controls the water drenching water pump unlatching, and in first temperature difference
It is poor less than the first threshold or the second temperature when being less than the Second Threshold, control the rotating speed of the motor exhaust to improve
To the first air draft rotating speed, wherein, second preset time is more than first preset time.
10. the control device of moveable air conditioner according to claim 9, it is characterised in that the control module is also used
When three preset times is reached in the continuous working period, judge whether first temperature difference is less than the first threshold
Whether be less than the Second Threshold with the second temperature difference, and first temperature difference be more than or equal to the first threshold and
When the second temperature difference is more than or equal to the Second Threshold, the rotating speed of the atomization motor is controlled to be improved by the first atomization rotating speed
To the second atomization rotating speed, and it is less than the first threshold in first temperature difference or second temperature difference is less than described the
During two threshold values, control the water drenching water pump to close, and control the rotating speed of the motor exhaust to improve to the first air draft rotating speed,
Wherein, the 3rd preset time is more than second preset time, and the second atomization rotating speed is more than the described first atomization and turned
Speed.
11. the control device of moveable air conditioner according to claim 10, it is characterised in that the control module is also used
When four preset times is reached in the continuous working period, judge whether first temperature difference is less than the first threshold
Whether be less than the Second Threshold with the second temperature difference, and first temperature difference be more than or equal to the first threshold and
When the second temperature difference is more than or equal to the Second Threshold, the rotating speed of the atomization motor is controlled by the described second atomization rotating speed
Improve to the 3rd atomization rotating speed, and be less than institute less than the first threshold or second temperature difference in first temperature difference
When stating Second Threshold, the rotating speed of the atomization motor is controlled to be reduced to the first atomization rotating speed, and control the water drenching water pump
Close, and the rotating speed of the control motor exhaust is improved to the first air draft rotating speed, wherein, the 4th preset time is big
In the 3rd preset time, the 3rd atomization rotating speed is more than the described second atomization rotating speed.
12. a kind of moveable air conditioner, it is characterised in that empty including the movable type according to any one of claim 7-11
Adjust the control device of device.
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CN110296509A (en) * | 2019-07-02 | 2019-10-01 | 珠海格力电器股份有限公司 | Rotating speed control method and device, storage medium and air conditioner |
CN113970162A (en) * | 2021-11-30 | 2022-01-25 | 宁波奥克斯电气股份有限公司 | Control method of mobile air conditioner and mobile air conditioner |
CN114263976A (en) * | 2021-12-21 | 2022-04-01 | 珠海格力电器股份有限公司 | Heat exchange device, fan coil and control method of fan coil |
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