CN109084436B - Air conditioner control method, air conditioner and computer readable storage medium - Google Patents

Abstract

The invention discloses an air conditioner control method, which comprises the following steps: acquiring a set temperature of the air conditioner, a current indoor temperature and a current indoor humidity of an indoor environment where the air conditioner is located; calculating a temperature difference between the current indoor temperature and the set temperature; determining a target interval corresponding to the temperature difference and the current indoor humidity based on the set temperature; and when the target interval is a first target interval, controlling the air conditioner to operate according to a new airflow control mode corresponding to the first target interval. The invention also discloses an air conditioner and a computer readable storage medium. The air conditioner can be controlled to operate according to the new airflow control mode according to the set temperature, the current indoor temperature and the current indoor humidity, so that the airflow intensity of cold air is remarkably reduced after the cold air passes through the air dispersing function of the air dispersing holes, the airflow blowing to a user is reduced, and the comfort of the air outlet airflow of the indoor unit of the air conditioner is improved.

Description

Air conditioner control method, air conditioner and computer readable storage medium

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner control method, an air conditioner and a computer readable storage medium.

Background

With the improvement of living standard, the air conditioner has become one of the indispensable household appliances of many families. When the refrigeration mode is opened at current air conditioner, the refrigerated air current passes through the aviation baffle and adjusts, can avoid appearing cold wind directly blow to the user on one's body, influences the refrigerated travelling comfort of air conditioner, and even when wind-force was too powerful, the cold air current blows to the user on one's body the back, can make the user suffer from the air conditioner disease.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide an air conditioner control method, an air conditioner and a computer readable storage medium, aiming at improving the comfort of air outlet flow of an indoor unit of the air conditioner.

In order to achieve the above object, the present invention provides an air conditioner control method, including the steps of:

acquiring a set temperature of the air conditioner, a current indoor temperature and a current indoor humidity of an indoor environment where the air conditioner is located;

calculating a temperature difference between the current indoor temperature and the set temperature;

determining a target interval corresponding to the temperature difference and the current indoor humidity based on the set temperature;

and when the target interval is a first target interval, controlling the air conditioner to operate according to a new airflow control mode corresponding to the first target interval.

In an embodiment, after the step of determining the temperature difference and the target interval corresponding to the current indoor humidity, the method further includes:

when the target interval is a second target interval, controlling the air conditioner to operate according to a patio airflow control mode corresponding to the second target interval;

and when the target interval is a third target interval, controlling the air conditioner to operate according to a conventional refrigeration control mode corresponding to the third target interval.

In an embodiment, the step of determining the temperature difference and the target interval corresponding to the current indoor humidity based on the set temperature includes:

determining a humidity change trend of the indoor environment based on the current indoor humidity;

when the humidity change trend is an ascending trend, determining whether the current indoor humidity is greater than a first preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the first preset humidity, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than the first preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is smaller than or equal to the first preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

when the temperature change trend is an ascending trend, determining whether the temperature difference is larger than a first preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the first preset temperature difference, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, the method further includes:

when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a first target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the second preset temperature difference, judging that the target interval is a second target interval.

In an embodiment, after the step of determining the temperature trend of the indoor environment based on the current indoor temperature, the method further includes:

when the temperature change trend is a descending trend, determining whether the temperature difference is larger than a second preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, the method further includes:

when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a first target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the third preset temperature difference, the target interval is judged to be a first target interval

And when the temperature difference is smaller than or equal to the third preset temperature difference, judging that the target interval is a second target interval.

In an embodiment, after the step of determining the humidity trend of the indoor environment based on the current indoor humidity, the method further includes:

when the humidity change trend is a descending trend, determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is smaller than or equal to the second preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

when the temperature change trend is an ascending trend, determining whether the temperature difference is larger than a first preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the first preset temperature difference, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, the method further includes:

when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the third preset humidity, judging that the target interval is a first target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than a third preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the second preset temperature difference, judging that the target interval is a second target interval.

In an embodiment, after the step of determining the temperature trend of the indoor environment based on the current indoor temperature, the method further includes:

when the temperature change trend is a descending trend, determining whether the temperature difference is larger than a second preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a third target interval.

In an embodiment, after the step of determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, the method further includes:

when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the third preset humidity, judging that the target interval is a first target interval.

In an embodiment, after the step of determining whether the current indoor humidity is greater than a third preset humidity corresponding to the set temperature, the method further includes:

when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the third preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the third preset temperature difference, judging that the target interval is a second target interval.

Further, to achieve the above object, the present invention also provides an air conditioner including: the air conditioner control method comprises a memory, a processor and an air conditioner control program stored on the memory and capable of running on the processor, wherein the air conditioner control program realizes the steps of the air conditioner control method in any one of the above aspects when being executed by the processor.

In addition, to achieve the above object, the present invention provides a computer readable storage medium, wherein an air conditioner control program is stored on the computer readable storage medium, and when the air conditioner control program is executed by a processor, the air conditioner control program implements the steps of the air conditioner control method according to any one of the above items

The invention obtains the set temperature of the air conditioner, the current indoor temperature and the current indoor humidity of the indoor environment of the air conditioner, calculates the temperature difference between the current indoor temperature and the set temperature, determines the temperature difference and the target interval corresponding to the current indoor humidity based on the set temperature, controls the air conditioner to operate according to the new airflow control mode corresponding to the first target interval when the target interval is the first target interval, can control the air conditioner to operate according to the set temperature, the current indoor temperature and the current indoor humidity, and makes the airflow at the air outlet of the air conditioner blow to the indoor environment through the air outlet holes of the air outlet duct, so that the airflow intensity of the cold air is obviously reduced after the cold air passes through the air dispersing function of the air outlet holes, and the cold air passes through the air deflector at the first preset angle again, the air flow blowing to the user is reduced, so that only cool feeling and no obvious wind feeling exist in the refrigeration process of the air conditioner, the user feels more comfortable and is not easy to suffer from air conditioning diseases, and the comfort of the air outlet flow of the indoor unit of the air conditioner is improved.

Drawings

FIG. 1 is a schematic diagram of an air conditioner in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating a control method or a first embodiment of an air conditioner according to the present invention;

FIG. 3 is a schematic structural view of an indoor unit of an air conditioner according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an indoor unit of an air conditioner according to another embodiment of the present invention;

FIG. 5 is a schematic diagram of an indoor humidity range and a humidity trend according to the present invention;

FIG. 6 is a schematic diagram of a temperature difference interval and a trend of temperature difference variation according to the present invention.

The reference numbers illustrate:

reference numerals

Name (R)

Reference numerals

Name (R)

Reference numerals

Name (R)

100

Shell body

110

Air duct

111

Front wall

112

Rear wall surface

120

First air deflector

121

First pivot

130

Second air deflector

131

Second pivot

140

Microporous plate

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The method determines a target interval according to the temperature difference between the set temperature and the current indoor temperature of the indoor environment where the air conditioner is located and the current indoor humidity, controls the air conditioner to operate according to the new airflow control mode corresponding to the first target interval when the target interval is the first target interval, can control the air conditioner to operate according to the set temperature, the current indoor temperature and the current indoor humidity according to the new airflow control mode, enables airflow at an air outlet of the air conditioner to blow to the indoor environment through the air dispersing holes of the air outlet duct, enables the airflow intensity of cold air to be remarkably reduced after the cold air passes through the air dispersing holes, and enables the cold air to pass through the angle of the first air deflector and the second air deflector at the first preset angle again, reduces the airflow blowing to a user, enables the air conditioner to have only cool feeling and no obvious wind feeling in the refrigerating process, and enables the user to feel more comfortable and not easily suffer from air conditioning diseases, the comfort of the air outlet flow of the indoor unit of the air conditioner is improved.

For a better understanding of the above technical solutions, exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an air conditioner in a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the air conditioner may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Optionally, the air conditioner may further include a camera, a Radio Frequency (RF) circuit, a sensor, an audio circuit, a WiFi module, and the like. Of course, the air conditioner may also be configured with other sensors such as a gyroscope, a barometer, a hygrometer, a thermometer, an infrared sensor, etc., which are not described herein again.

Those skilled in the art will appreciate that the air conditioner configuration shown in fig. 1 is not intended to be limiting of the air conditioner and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and an air conditioner control program.

In the air conditioner shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be used to call the air conditioner control program stored in the memory 1005.

In the present embodiment, an air conditioner includes: the air conditioner control method comprises a memory 1005, a processor 1001 and an air conditioner control program which is stored on the memory 1005 and can run on the processor 1001, wherein when the processor 1001 calls the air conditioner control program stored in the memory 1005, the steps of the air conditioner control method in each embodiment of the application are executed.

The invention also provides an air conditioner control method, and referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of the air conditioner control method of the invention.

The air conditioner control method comprises the following steps:

step S100, acquiring a set temperature of the air conditioner, a current indoor temperature and a current indoor humidity of an indoor environment where the air conditioner is located;

in this embodiment, in the process of the air conditioner during the cooling operation or when the air conditioner starts the cooling operation, the set temperature of the air conditioner, and the current indoor temperature and the current indoor humidity of the indoor environment where the air conditioner is located are obtained, and specifically, the set temperature, the current indoor temperature, and the current indoor humidity can be obtained at regular time.

Step S200, calculating the temperature difference between the current indoor temperature and the set temperature;

in this embodiment, when the set temperature and the current indoor temperature are obtained, a temperature difference between the current indoor temperature and the set temperature is calculated, where the temperature difference is the current indoor temperature minus the set temperature.

Step S300, determining the temperature difference and a target interval corresponding to the current indoor humidity based on the set temperature;

when the temperature difference between the current indoor temperature and the set temperature is obtained, based on the set temperature, the temperature difference and a target interval corresponding to the current indoor humidity are determined, wherein different set temperatures correspond to different preset temperature differences and preset humidities, the current preset temperature difference and the preset humidity are determined according to the set temperature, then the temperature interval where the temperature difference is located is determined according to the preset temperature difference, the humidity interval where the current indoor humidity is located is determined according to the preset humidity, the target interval is determined according to the determined temperature interval and humidity interval, and for example, the temperature difference and the target interval corresponding to the current indoor humidity are determined according to the corresponding relations between the temperature interval and the humidity interval and the target interval.

And step S400, when the target interval is a first target interval, controlling the air conditioner to operate according to a new airflow control mode corresponding to the first target interval.

Referring to fig. 3 and 4, the air duct outlet of the indoor unit of the air conditioner is provided with a micro-perforated plate 140, a first air deflector 120, and a second air deflector 130, wherein the micro-perforated plate 140 is provided with a plurality of air dissipation holes.

Specifically, referring to fig. 3 and 4, the indoor unit of an air conditioner includes a casing 100, a first air deflector 120, a second air deflector 130, and a micro plate 140. An air duct 110 is formed in the housing 100, and an air outlet of the air duct 110 has a front wall 111 and a rear wall 112 that are oppositely disposed. The first air guiding plate 120 is rotatably disposed on the casing 100 with a first pivot 121, and the first pivot 121 is disposed adjacent to the rear wall 112. The second wind deflector 130 is rotatably disposed on the housing 100 with a second pivot 131, the second pivot 131 is located between the first pivot 121 and the front wall 111, and an edge of the second wind deflector 130 close to the second pivot 131 is adapted to be connected to an edge of the first wind deflector 120 away from the first pivot 121. The micro plate 140 is rotatably disposed on the housing 100 by a third pivot 141, the third pivot 141 is disposed adjacent to the front wall 111, and the micro plate 140 has a plurality of air holes along a thickness direction thereof.

In a shutdown state, referring to fig. 3 and 4, the micro plate 140 is disposed in the air duct 110 of the casing 100, and an edge of the first air-guiding plate 120 away from the first pivot 121 is connected to an edge of the second air-guiding plate 130 close to the second pivot 131. The air outlet is closed under the matching of the first air deflector 120 and the second air deflector 130, so that on one hand, dust can be prevented from entering from the air outlet, and on the other hand, the whole air-conditioning indoor unit can be more beautiful.

In this embodiment, if the determined target interval is the first target interval, the air conditioner is controlled to operate according to a new airflow control manner corresponding to the first target interval, specifically, the air conditioner is controlled to operate according to a cooling mode corresponding to a set temperature, and when the angle of the first air deflector 120 and the angle of the second air deflector 130 are adjusted to the first preset angle, the angle of the micro plate 140 is adjusted to the second preset angle, so that the airflow flowing out of the air outlet channel is blown to the indoor environment where the outdoor unit is located through the air diffuser. When the air conditioner is in a refrigerating state, after cold air passes through the air dispersing function of the air dispersing holes, the airflow intensity of the cold air is remarkably reduced, and the cold air passes through the first air deflector 120 and the second air deflector 130 at the first preset angle again, so that the airflow blowing to a user is reduced, only cool feeling is realized in the refrigerating process of the air conditioner, obvious wind feeling is avoided, the user feels more comfortable and is not easy to suffer from air conditioning diseases, and the comfort of the air outlet airflow of an indoor unit of the air conditioner is improved.

It should be noted that, when the angle of the first air guiding plate 120 and the angle of the second air guiding plate 130 are both the first preset angles, the angle of the micro plate 140 is the second preset angle, and the current operation mode of the air conditioner is defined as the new airflow mode.

The first preset temperature range is 25-28 ℃, the first preset angle range is 16-23 ℃, the second preset angle range is 85-95 ℃, preferably, the first preset angle is 20 ℃, and the second preset angle is 90 ℃. When the indoor unit is normally installed, the angle of the air deflector is the angle between the plane where the air deflector is located and the horizontal plane, and the angle of the microporous plate is the angle between the plane where the microporous plate is located and the horizontal plane.

When the indoor unit is normally installed, the angle of the first air deflector 120 is the angle between the plane where the first air deflector 120 is located and the horizontal plane, the angle of the second air deflector 130 is the angle between the plane where the second air deflector 130 is located and the horizontal plane, and the angle of the microporous plate 140 is the angle between the plane where the microporous plate 140 is located and the horizontal plane.

Further, in an embodiment, after step S130, the air conditioner control method further includes: when the target interval is a second target interval, controlling the air conditioner to operate according to a patio airflow control mode corresponding to the second target interval;

and when the target interval is a third target interval, controlling the air conditioner to operate according to a conventional refrigeration control mode corresponding to the third target interval.

In this embodiment, the controlling the air conditioner to operate according to the patio airflow control manner corresponding to the second target interval specifically includes controlling the air conditioner to operate according to a refrigeration mode corresponding to the set temperature, adjusting the angles of the first air deflector 120 and the second air deflector 130 to a third preset angle, and adjusting the angle of the micro-porous plate 140 to a fourth preset angle, where the fourth preset angle is smaller than the second preset angle. The wind direction of the air outlet airflow is changed by adjusting the angles of the first air deflector 120 and the second air deflector 130, the airflow blowing to a user is further reduced, only cool feeling is caused in the refrigeration process of the air conditioner, no obvious wind feeling exists, the user feels more comfortable and is not easy to suffer from air conditioning diseases, the angle of the microporous plate 140 is adjusted to a fourth preset angle, the cold air is not subjected to the air dispersing effect of the air dispersing hole as far as possible, the efficiency of the air conditioner in the refrigeration mode is improved, and the power consumption of the air conditioner is reduced.

It should be noted that, when the angle of the first air deflector 120 and the angle of the second air deflector 130 are both a third preset angle, the angle of the micro plate 140 is a fourth preset angle, and the current operation mode of the air conditioner is defined as a patio airflow control mode.

The second preset temperature range is 20-24 ℃, the third preset angle range is 11-15 ℃, the fourth preset angle range is 0 ℃, and preferably the third preset angle range is 13 ℃.

Controlling the air conditioner to operate according to a conventional refrigeration control mode corresponding to the third target interval, specifically comprising: the air conditioner is controlled to operate according to a refrigeration mode corresponding to the set temperature, the angles of the first air deflector 120 and the second air deflector 130 are respectively adjusted to a fifth preset angle, and the angle of the microporous plate 140 is adjusted to a fourth preset angle. The fifth preset angle is larger than the first preset angle; specifically, the range of the fifth preset angle is 25-45 degrees, and the range of the fourth preset angle is 0 degree. By adjusting the angles of the first air deflector 120 and the second air deflector 130 to the fifth preset angle and adjusting the angle of the microporous plate 140 to the fourth preset angle, when the indoor temperature or humidity of the current indoor environment is higher, the cold air is prevented from passing through the air dispersing holes as much as possible, the air flow blowing to the user is increased, and the comfort of the air flow of the indoor unit of the air conditioner is further improved.

It should be noted that, when the angle of the first air deflector 120 and the angle of the second air deflector 130 are both a fifth preset angle, the angle of the micro plate 140 is a fourth preset angle, and the current operation mode of the air conditioner is defined as a conventional refrigeration control mode.

In the air conditioner control method provided by this embodiment, the set temperature of the air conditioner, the current indoor temperature of the indoor environment in which the air conditioner is located, and the current indoor humidity are obtained, then the temperature difference between the current indoor temperature and the set temperature is calculated, then the target interval corresponding to the temperature difference and the current indoor humidity is determined based on the set temperature, then when the target interval is the first target interval, the air conditioner is controlled to operate according to the new airflow control manner corresponding to the first target interval, the air conditioner can be controlled to operate according to the new airflow control manner according to the set temperature, the current indoor temperature, and the current indoor humidity, so that the airflow at the air outlet of the air conditioner blows towards the indoor environment through the air outlet holes of the air outlet duct, and the airflow intensity of the cold air is significantly reduced after the cold air passes through the air outlet holes, and the air flow blowing to the user is reduced by passing through the angle of the first air deflector 120 at the first preset angle and the second air deflector again, so that the air conditioner has only cool feeling and no obvious wind feeling in the refrigeration process, the user feels more comfortable and is not easy to suffer from air conditioner diseases, and the comfort of the air outlet flow of the indoor unit of the air conditioner is improved.

A second embodiment of the air conditioner control method of the present invention is proposed based on the first embodiment, and in this embodiment, the step S300 includes:

step S301, determining a humidity change trend of the indoor environment based on the current indoor humidity;

in this embodiment, the humidity change trend of the indoor environment may be determined according to the current indoor humidity, and specifically, if the air conditioner is in continuous operation, the humidity change trend may be determined according to the indoor humidity within a preset time period before the current time and the current indoor humidity; if the air conditioner is currently in a refrigeration starting operation mode, if the indoor humidity within the preset time before the current time can be obtained currently, the humidity change trend can be determined according to the indoor humidity within the preset time before the current time and the current indoor humidity, otherwise, the air conditioner is controlled to refrigerate for operation for the preset time according to the set temperature, the indoor humidity is obtained in real time, and then the humidity change trend is determined according to the current indoor humidity and the indoor humidity obtained within the preset time. As shown in fig. 5, the humidity variation trend includes an upward trend and a downward trend.

Step S302, when the humidity change trend is an ascending trend, determining whether the current indoor humidity is greater than a first preset humidity corresponding to the set temperature;

step S303, when the current indoor humidity is greater than the first preset humidity, determining that the target interval is a third target interval.

The preset temperature range corresponding to the set temperature is determined when the set temperature is obtained, and the preset humidity determined based on the set temperature range includes a first preset humidity, a second preset humidity and a third preset humidity which are sequentially reduced.

TABLE 1 corresponding relationship between preset temperature range and preset humidity

Set temperature range	A first predetermined humidity	Second predetermined humidity	Third predetermined humidity
				(26,30]	75	65	60
(23,26]	70	60	55
				(16,23]	65	55	50

As shown in table 1, table 1 is a table of correspondence between preset temperature ranges and first, second, and third preset humidities, wherein, in each preset temperature range, the distance between the first, second, and third preset humidities may be set reasonably, and is not limited again.

In this embodiment, if the determined humidity change trend is an ascending trend, it is determined whether the current indoor humidity is greater than a first preset humidity corresponding to a set temperature, when the current indoor humidity is greater than the first preset humidity, it is determined that the target interval is a third target interval, a step of controlling the operation of the air conditioner according to a conventional refrigeration control manner corresponding to the third target interval is performed, and by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130 to a fifth preset angle and adjusting the angle of the micro plate to a fourth preset angle, when the indoor temperature or humidity of the current indoor environment is high, the air dispersion effect that cold air does not pass through the air dispersion holes is performed as much as possible, and the air flow blowing to the user is increased, thereby improving the comfort of the air flow of the indoor unit of the air conditioner.

According to the air conditioner control method provided by the embodiment, the humidity change trend of the indoor environment is determined based on the current indoor humidity, then when the humidity change trend is an ascending trend, whether the current indoor humidity is greater than a first preset humidity corresponding to the set temperature is determined, and then when the current indoor humidity is greater than the first preset humidity, the target interval is determined to be a third target interval.

Based on the second embodiment, a third embodiment of the air conditioner control method according to the present invention is provided, where after step S302, the method further includes:

step S304, when the current indoor humidity is less than or equal to the first preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

in this embodiment, if the current indoor humidity is less than or equal to the first preset humidity, the temperature change trend of the indoor environment is determined based on the current indoor temperature, and specifically, if the air conditioner is in continuous operation, the temperature change trend may be determined according to the indoor temperature in a preset time period before the current time and the current indoor temperature; if the air conditioner is started to perform refrigeration operation currently, if the indoor temperature within the preset time before the current time can be obtained currently, the temperature change trend can be determined according to the indoor temperature within the preset time before the current time and the current indoor temperature, otherwise, the air conditioner is controlled to perform refrigeration operation for the preset time according to the set temperature, the indoor temperature is obtained in real time, and then the temperature change trend is determined according to the current indoor temperature and the indoor temperature obtained within the preset time. As shown in fig. 6, the temperature variation trend includes an upward trend and a downward trend.

Step S305, when the temperature variation trend is an increasing trend, determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature;

step S306, when the temperature difference is greater than the first preset temperature difference, determining that the target interval is a third target interval.

The method comprises the steps of presetting different set temperature ranges so that different set temperatures correspond to different preset temperature differences, determining the set temperature range corresponding to the set temperature when the set temperature is obtained, and determining the preset temperature difference based on the set temperature range, wherein the preset temperature difference comprises a first preset temperature difference, a second preset temperature difference and a third preset temperature difference which are sequentially reduced. As shown in table 2, table 2 is a table of correspondence between the preset temperature ranges and the first preset temperature difference, the second preset temperature difference, and the third preset temperature difference, wherein in each preset temperature range, the distance between the first preset temperature difference, the second preset temperature difference, and the third preset temperature difference may be reasonably set, and is not limited again. When the set temperature is higher, the temperature difference between the indoor temperature and the set temperature is smaller, and each preset temperature difference is set to be relatively smaller, so that the temperature can be quickly reached, and the refrigeration is more quickly switched into new airflow or patio airflow; when the set temperature is lower, the temperature difference of the preset temperature difference is larger, and each preset temperature difference is relatively larger, so that new airflow or patio airflow can be rapidly entered.

TABLE 2 corresponding relationship between the preset temperature range and the preset temperature difference

Set temperature range	First predetermined temperature difference	Second predetermined temperature difference	Third predetermined temperature difference
				(26,30]	1.5	1	0.5
(23,26]	3	2	1
				(16,23]	4	3	2

In this embodiment, if the temperature variation trend is an ascending trend, it is determined whether the temperature difference is greater than a first preset temperature difference corresponding to a set temperature, if the temperature difference is greater than the first preset temperature difference, it is determined that the target interval is a third target interval, so as to perform a step of controlling the operation of the air conditioner according to a conventional refrigeration control manner corresponding to the third target interval, and by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130 to a fifth preset angle and adjusting the angle of the microporous plate to a fourth preset angle, when the indoor temperature or humidity of the current indoor environment is high, the cold air is prevented from passing through the air dispersion holes, and the airflow blowing to the user is increased, so as to improve the comfort of the airflow of the indoor unit of the air conditioner.

Further, in another embodiment, after step S305, the method further includes:

step A1, when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

step a2, when the current indoor humidity is greater than the second preset humidity, determining that the target interval is a first target interval.

In this embodiment, if the temperature difference is smaller than or equal to the first predetermined temperature difference, it is determined whether the current indoor humidity is greater than the second predetermined humidity corresponding to the set temperature, if so, determining the target interval as a first target interval to execute the step of controlling the operation of the air conditioner according to a new airflow control mode corresponding to the first target interval, the airflow at the air outlet of the air conditioner is blown to the indoor environment through the air dispersing holes of the air outlet duct, so that the airflow intensity of the cold air is obviously reduced after the cold air passes through the air dispersing function of the air dispersing holes, and passes through the angle of the first air guiding plate 120 and the second air guiding plate 130 at the first preset angle again, reducing the air flow blowing to the user, the air conditioner has the advantages that only cool feeling and no obvious wind feeling exist in the refrigeration process of the air conditioner, a user feels more comfortable and is not easy to suffer from air conditioning diseases, and the comfort of air outlet flow of an indoor unit of the air conditioner is improved.

Further, in another embodiment, after the step a1, the method further includes:

step B1, when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

step B2, when the temperature difference is larger than the second preset temperature difference, determining that the target interval is a first target interval;

and step B3, when the temperature difference is smaller than or equal to the second preset temperature difference, determining that the target interval is a second target interval.

In this embodiment, if the current indoor humidity is less than or equal to a second preset humidity, when the temperature difference is greater than the second preset temperature difference, it is determined that the target interval is a first target interval, so as to execute the step of controlling the operation of the air conditioner according to a new airflow control manner corresponding to the first target interval; when the temperature difference is smaller than or equal to a second preset temperature difference, the target interval is judged to be a second target interval, the step of controlling the air conditioner to operate according to a courtyard airflow control mode corresponding to the second target interval is executed, the wind direction of the outlet airflow is changed by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130, the airflow blowing to a user is further reduced, only cool feeling and no obvious wind feeling exist in the air conditioner refrigerating process, the user feels more comfortable and is not easy to suffer from air conditioning diseases, the angle of the microporous plate is adjusted to a fourth preset angle, the cold air is prevented from passing through the air dispersing holes, the efficiency of the air conditioner in a refrigerating mode is improved, and the power consumption of the air conditioner is reduced.

In the air conditioner control method provided by this embodiment, when the current indoor humidity is less than or equal to the first preset humidity, the temperature variation trend of the indoor environment is determined based on the current indoor temperature, then when the temperature variation trend is an ascending trend, it is determined whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, and then when the temperature difference is greater than the first preset temperature difference, it is determined that the target interval is a third target interval, so that when the temperature variation trend and the temperature variation trend are both ascending trends and the current indoor temperature is greater than the first preset temperature, the target interval can be accurately determined as the third target interval, and further when the indoor humidity is high, the cool air does not pass through the air dispersing function of the air dispersing hole as much as possible, and the air flow blowing to the user is increased, so as to reduce the humidity of the indoor environment in a short time, thereby improving the comfort of the air outlet flow of the indoor unit of the air conditioner.

Based on the third embodiment, a fourth embodiment of the air conditioner control method according to the present invention is provided, where after step S304, the method further includes:

step S307, when the temperature variation trend is a descending trend, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

step S308, when the temperature difference is greater than the second preset temperature difference, determining that the target interval is a third target interval.

In this embodiment, if the temperature variation trend is a downward trend, it is determined whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, if the temperature difference is greater than the second preset temperature difference, it is determined that the target interval is a third target interval, and the operation of the air conditioner is controlled according to a conventional refrigeration control manner corresponding to the third target interval.

Further, in another embodiment, after step S307, the method further includes:

step C1, when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

and step C2, when the current indoor humidity is greater than the second preset humidity, determining that the target interval is a first target interval.

In this embodiment, if the temperature difference is less than or equal to the second preset temperature difference, when the current indoor humidity is greater than the second preset humidity, it is determined that the target interval is the first target interval, so as to execute the step of controlling the operation of the air conditioner according to the new airflow control manner corresponding to the first target interval, so that the airflow at the air outlet of the air conditioner is blown to the indoor environment through the air outlet hole of the air outlet duct, and after the cold air passes through the air outlet hole, the intensity of the cold air is significantly reduced, and the cold air passes through the angle of the first air deflector 120 and the second air deflector 130 at the first preset angle again, so as to reduce the airflow blowing to the user, so that the air conditioner has only a cool feeling in the refrigeration process, and has no obvious wind feeling, and the user feels more comfortable and is less prone to suffer from air conditioning diseases, thereby improving the comfort of the air outlet airflow of the indoor unit of the air conditioner.

Further, in another embodiment, after the step C1, the method further includes:

step D1, when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

step D2, when the temperature difference is larger than the third preset temperature difference, determining that the target interval is a first target interval;

and D3, when the temperature difference is smaller than or equal to the third preset temperature difference, determining that the target interval is a second target interval.

In this embodiment, if the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature, and if so, determining that the target interval is a first target interval, so as to execute the step of controlling the operation of the air conditioner according to a new airflow control manner corresponding to the first target interval; otherwise, the target interval is judged to be a second target interval, the step of controlling the air conditioner to operate according to the courtyard airflow control mode corresponding to the second target interval is executed, the wind direction of the outlet airflow is changed by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130, the airflow blowing to a user is further reduced, the air conditioner has only cool feeling and no obvious wind feeling in the refrigerating process, the user feels more comfortable and is not easy to suffer from air conditioning diseases, the wind dispersing function that cold wind does not pass through the wind dispersing holes is achieved as far as possible by adjusting the angle of the microporous plate to a fourth preset angle, the efficiency of the air conditioner in the refrigerating mode is improved, and the power consumption of the air conditioner is reduced.

According to the air conditioner control method provided by the embodiment, when the temperature variation trend is a descending trend, whether the temperature difference is larger than a second preset temperature difference corresponding to the set temperature is determined, and then when the temperature difference is larger than the second preset temperature difference, the target interval is determined to be a third target interval, so that when the temperature variation trend is an ascending trend, the temperature variation trend is a descending trend, and the current indoor temperature is larger than the second preset temperature, the target interval can be accurately determined to be the third target interval, and further when the indoor humidity is higher, cold air does not pass through the air dispersing function of the air dispersing hole as far as possible, the air flow blowing to a user is increased, the humidity of the indoor environment is reduced in a short time, and the comfort of the air outlet flow of the indoor unit of the air conditioner is improved.

A fifth embodiment of the air conditioner controlling method according to the present invention is proposed based on the second embodiment, and in this embodiment, after step S301, the method further includes:

step S309, when the humidity change trend is a descending trend, determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature;

step S310, when the current indoor humidity is greater than the second preset humidity, determining that the target interval is a third target interval.

In this embodiment, if the humidity change trend is a downward trend, it is determined whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, when the current indoor humidity is greater than the second preset humidity, it is determined that the target interval is a third target interval, and the step of controlling the operation of the air conditioner according to a conventional refrigeration control manner corresponding to the third target interval is performed, where the angle of the first air deflector 120 and the angle of the second air deflector 130 are adjusted to a fifth preset angle, and the angle of the microporous plate is adjusted to a fourth preset angle, so that when the indoor temperature or humidity of the current indoor environment is high, the cold air is prevented from passing through the air dispersion holes, and the airflow blowing to the user is increased, thereby improving the comfort of the airflow of the indoor unit of the air conditioner.

In the control method of the air conditioner provided by the embodiment, when the humidity change trend is a descending trend, whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature is determined; and then when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a third target interval, accurately determining that the target interval is the third target interval when the humidity change trend is a descending trend and the current indoor humidity is greater than the second preset humidity, and further enabling cold air not to pass through the air dispersing function of the air dispersing hole as far as possible when the indoor humidity is higher, increasing the air flow blown to a user, reducing the humidity of the indoor environment in a short time and further improving the comfort of the air outlet flow of the indoor unit of the air conditioner.

Based on the fifth embodiment, a sixth embodiment of the air conditioner control method according to the present invention is provided, where after step S309, the method further includes:

step S311, when the current indoor humidity is less than or equal to the second preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

in this embodiment, if the current indoor humidity is less than or equal to the second preset humidity, the temperature change trend of the indoor environment is determined based on the current indoor temperature, and specifically, if the air conditioner is in continuous operation, the temperature change trend may be determined according to the indoor temperature in the preset time period before the current time and the current indoor temperature; if the air conditioner is started to perform refrigeration operation currently, if the indoor temperature within the preset time before the current time can be obtained currently, the temperature change trend can be determined according to the indoor temperature within the preset time before the current time and the current indoor temperature, otherwise, the air conditioner is controlled to perform refrigeration operation for the preset time according to the set temperature, the indoor temperature is obtained in real time, and then the temperature change trend is determined according to the current indoor temperature and the indoor temperature obtained within the preset time. As shown in fig. 6, the temperature variation trend includes an upward trend and a downward trend.

Step S312, when the temperature variation trend is an ascending trend, determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature;

step S313, when the temperature difference is greater than the first preset temperature difference, determining that the target interval is a third target interval.

Different preset temperature ranges can be preset, so that different preset temperatures correspond to different preset temperature differences, when the preset temperatures are obtained, the preset temperature ranges corresponding to the preset temperatures are determined, and the preset temperature differences determined based on the preset temperature ranges are determined, wherein the preset temperature differences comprise a first preset temperature difference, a second preset temperature difference and a third preset temperature difference which are sequentially reduced, and are shown in table 2.

In this embodiment, if the temperature variation trend is an increasing trend, it is determined whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, and if the temperature difference is greater than the first preset temperature difference, it is determined that the target interval is a third target interval, so as to execute the step of controlling the air conditioner to operate according to a conventional refrigeration control manner corresponding to the third target interval.

Further, in another embodiment, after step S312, the method further includes:

step E1, when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and E2, when the current indoor humidity is greater than the third preset humidity, determining that the target interval is a first target interval.

In this embodiment, if the temperature difference is smaller than or equal to the first predetermined temperature difference, it is determined whether the current indoor humidity is greater than a third predetermined humidity corresponding to the set temperature, if so, determining the target interval as a first target interval to execute the step of controlling the operation of the air conditioner according to a new airflow control mode corresponding to the first target interval, the airflow at the air outlet of the air conditioner is blown to the indoor environment through the air dispersing holes of the air outlet duct, so that the airflow intensity of the cold air is obviously reduced after the cold air passes through the air dispersing function of the air dispersing holes, and passes through the angle of the first air guiding plate 120 and the second air guiding plate 130 at the first preset angle again, reducing the air flow blowing to the user, the air conditioner has the advantages that only cool feeling and no obvious wind feeling exist in the refrigeration process of the air conditioner, a user feels more comfortable and is not easy to suffer from air conditioning diseases, and the comfort of air outlet flow of an indoor unit of the air conditioner is improved.

Further, in another embodiment, after the step E1, the method further includes:

step F1, when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

step F2, when the temperature difference is larger than the second preset temperature difference, determining that the target interval is a first target interval;

and F3, when the temperature difference is smaller than or equal to the second preset temperature difference, determining that the target interval is a second target interval.

In this embodiment, if the current indoor humidity is less than or equal to the third preset humidity, when the temperature difference is greater than the second preset temperature difference, it is determined that the target interval is the first target interval, so as to execute the step of controlling the operation of the air conditioner according to the new airflow control manner corresponding to the first target interval; when the temperature difference is smaller than or equal to a second preset temperature difference, the target interval is judged to be a second target interval, the step of controlling the air conditioner to operate according to a courtyard airflow control mode corresponding to the second target interval is executed, the wind direction of the outlet airflow is changed by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130, the airflow blowing to a user is further reduced, only cool feeling and no obvious wind feeling exist in the air conditioner refrigerating process, the user feels more comfortable and is not easy to suffer from air conditioning diseases, the angle of the microporous plate is adjusted to a fourth preset angle, the cold air is prevented from passing through the air dispersing holes, the efficiency of the air conditioner in a refrigerating mode is improved, and the power consumption of the air conditioner is reduced.

In the air conditioner control method provided in this embodiment, when the current indoor humidity is less than or equal to the second preset humidity, the temperature variation trend of the indoor environment is determined based on the current indoor temperature, then when the temperature variation trend is an increasing trend, it is determined whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, and then when the temperature difference is greater than the first preset temperature difference, it is determined that the target interval is a third target interval, so that when the temperature variation trend is a decreasing trend, the temperature variation trend is an increasing trend, and the current indoor temperature is greater than the first preset temperature, it is possible to accurately determine that the target interval is the third target interval, and further when the indoor humidity is high, cool air does not pass through the air dispersing function of the air dispersing hole as much as possible, and an air flow blowing to a user is increased, so as to reduce the humidity of the indoor environment in a short time, thereby improving the comfort of the air outlet flow of the indoor unit of the air conditioner.

Based on the sixth embodiment, a seventh embodiment of the air conditioner control method according to the present invention is proposed, in this embodiment, after step S311, further comprising:

step S314, when the temperature variation trend is a downward trend, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

and step S315, when the temperature difference is larger than the second preset temperature difference, determining that the target interval is a third target interval.

In this embodiment, if the temperature variation trend is a downward trend, it is determined whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, if the temperature difference is greater than the second preset temperature difference, it is determined that the target interval is a third target interval, and the operation of the air conditioner is controlled according to a conventional refrigeration control manner corresponding to the third target interval.

Further, in another embodiment, after step S314, the method further includes:

step G1, when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and G2, when the current indoor humidity is greater than the third preset humidity, determining that the target interval is a first target interval.

In this embodiment, if the temperature difference is less than or equal to the second preset temperature difference, when the current indoor humidity is greater than the third preset humidity, it is determined that the target interval is the first target interval, so as to execute the step of controlling the operation of the air conditioner according to the new airflow control manner corresponding to the first target interval, so that the airflow at the air outlet of the air conditioner is blown to the indoor environment through the air outlet hole of the air outlet duct, and after the cold air passes through the air outlet hole, the intensity of the cold air is significantly reduced, and the cold air passes through the angle of the first air deflector 120 and the second air deflector 130 at the first preset angle again, so as to reduce the airflow blowing to the user, so that the air conditioner has only a cool feeling in the refrigeration process, and has no obvious wind feeling, and the user feels more comfortable and is less prone to suffer from air conditioning diseases, thereby improving the comfort of the air outlet airflow of the indoor unit of the air conditioner.

Further, in another embodiment, after the step G1, the method further includes:

step H1, when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

step H2, when the temperature difference is greater than the third preset temperature difference, determining that the target interval is a first target interval;

and step H3, when the temperature difference is smaller than or equal to the third preset temperature difference, determining that the target interval is a second target interval.

In this embodiment, if the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature, and if so, determining that the target interval is a first target interval, so as to execute the step of controlling the operation of the air conditioner according to a new airflow control manner corresponding to the first target interval; otherwise, the target interval is judged to be a second target interval, the step of controlling the air conditioner to operate according to the courtyard airflow control mode corresponding to the second target interval is executed, the wind direction of the outlet airflow is changed by adjusting the angle of the first air deflector 120 and the angle of the second air deflector 130, the airflow blowing to a user is further reduced, the air conditioner has only cool feeling and no obvious wind feeling in the refrigerating process, the user feels more comfortable and is not easy to suffer from air conditioning diseases, the wind dispersing function that cold wind does not pass through the wind dispersing holes is achieved as far as possible by adjusting the angle of the microporous plate to a fourth preset angle, the efficiency of the air conditioner in the refrigerating mode is improved, and the power consumption of the air conditioner is reduced.

The air conditioner control method provided by the embodiment determines whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature when the temperature variation trend is a descending trend, then determines that the target interval is a third target interval when the temperature difference is greater than the second preset temperature difference, can accurately determine that the target interval is the third target interval when the temperature variation trend and the temperature variation trend are descending trends and the current indoor temperature is greater than the second preset temperature, further enables cold air not to pass through the air dispersing function of the air dispersing hole when the indoor humidity is higher, increases the air flow blowing to a user, reduces the humidity of the indoor environment in a short time, and further improves the comfort of the air outlet flow of the indoor unit of the air conditioner.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, where an air conditioner control program is stored on the computer-readable storage medium, and when the air conditioner control program is executed by a processor, the steps of the air conditioner control method in the embodiments of the present application are implemented.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It should be noted that in the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (17)

1. A control method of an air conditioner is characterized in that a microporous plate, a first air deflector and a second air deflector are arranged at an air duct air outlet of an indoor unit of the air conditioner, and the control method of the air conditioner comprises the following steps:

acquiring a set temperature of the air conditioner, a current indoor temperature and a current indoor humidity of an indoor environment where the air conditioner is located;

calculating a temperature difference between the current indoor temperature and the set temperature;

determining a target interval corresponding to the temperature difference and the current indoor humidity based on the set temperature;

when the target interval is a first target interval, controlling the air conditioner to operate according to a new airflow control mode corresponding to the first target interval, wherein when the operation mode of the air conditioner is a new airflow mode, the angle of the first air deflector and the angle of the second air deflector are both first preset angles, and the angle of the microporous plate is a second preset angle;

the step of determining the temperature difference and the target interval corresponding to the current indoor humidity based on the set temperature includes:

determining a humidity change trend of the indoor environment based on the current indoor humidity;

when the humidity change trend is an ascending trend, determining whether the current indoor humidity is greater than a first preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the first preset humidity, judging that the target interval is a third target interval.

2. The air conditioner controlling method as claimed in claim 1, wherein the step of determining the target section corresponding to the temperature difference and the current indoor humidity further comprises, after the step of determining the target section corresponding to the current indoor humidity:

when the target interval is a second target interval, controlling the air conditioner to operate according to a patio airflow control mode corresponding to the second target interval, wherein when the operation mode of the air conditioner is the patio airflow control mode, the angle of the first air deflector and the angle of the second air deflector are both a third preset angle, and the angle of the microporous plate is a fourth preset angle;

and when the target interval is a third target interval, controlling the air conditioner to operate according to a conventional refrigeration control mode corresponding to the third target interval.

3. The air conditioner controlling method as claimed in claim 2, wherein the step of determining whether the current indoor humidity is greater than a first preset humidity corresponding to the set temperature further comprises, after the step of determining whether the current indoor humidity is greater than the first preset humidity, the step of:

when the current indoor humidity is smaller than or equal to the first preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

when the temperature change trend is an ascending trend, determining whether the temperature difference is larger than a first preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the first preset temperature difference, judging that the target interval is a third target interval.

4. The air conditioner control method according to claim 3, wherein after the step of determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, further comprising:

when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a first target interval.

5. The air conditioner controlling method as claimed in claim 4, wherein after the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, further comprising:

when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the second preset temperature difference, judging that the target interval is a second target interval.

6. The air conditioner controlling method as claimed in claim 3, wherein said step of determining a temperature variation tendency of the indoor environment based on the current indoor temperature is followed by further comprising:

when the temperature change trend is a descending trend, determining whether the temperature difference is larger than a second preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a third target interval.

7. The air conditioner control method as claimed in claim 6, wherein after the step of determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, further comprising:

when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a first target interval.

8. The air conditioner controlling method as claimed in claim 7, wherein after the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature, further comprising:

when the current indoor humidity is less than or equal to the second preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the third preset temperature difference, the target interval is judged to be a first target interval

And when the temperature difference is smaller than or equal to the third preset temperature difference, judging that the target interval is a second target interval.

9. The air conditioner control method as claimed in claim 2, wherein said step of determining a humidity variation trend of the indoor environment based on the current indoor humidity is followed by further comprising:

when the humidity change trend is a descending trend, determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the second preset humidity, judging that the target interval is a third target interval.

10. The air conditioner controlling method as claimed in claim 9, wherein the step of determining whether the current indoor humidity is greater than a second preset humidity corresponding to the set temperature further comprises, after the step of determining whether the current indoor humidity is greater than the second preset humidity, the step of:

when the current indoor humidity is smaller than or equal to the second preset humidity, determining a temperature change trend of the indoor environment based on the current indoor temperature;

when the temperature change trend is an ascending trend, determining whether the temperature difference is larger than a first preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the first preset temperature difference, judging that the target interval is a third target interval.

11. The air conditioner controlling method as claimed in claim 10, wherein after the step of determining whether the temperature difference is greater than a first preset temperature difference corresponding to the set temperature, further comprising:

when the temperature difference is smaller than or equal to the first preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the third preset humidity, judging that the target interval is a first target interval.

12. The air conditioner controlling method as claimed in claim 11, wherein the step of determining whether the current indoor humidity is greater than a third preset humidity corresponding to the set temperature further comprises, after the step of determining whether the current indoor humidity is greater than the third preset humidity, the step of:

when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the second preset temperature difference, judging that the target interval is a second target interval.

13. The air conditioner controlling method as claimed in claim 9, wherein said step of determining a temperature variation tendency of the indoor environment based on the current indoor temperature is followed by further comprising:

when the temperature change trend is a descending trend, determining whether the temperature difference is larger than a second preset temperature difference corresponding to the set temperature;

and when the temperature difference is larger than the second preset temperature difference, judging that the target interval is a third target interval.

14. The air conditioner controlling method as claimed in claim 13, wherein after the step of determining whether the temperature difference is greater than a second preset temperature difference corresponding to the set temperature, further comprising:

when the temperature difference is smaller than or equal to the second preset temperature difference, determining whether the current indoor humidity is larger than a third preset humidity corresponding to the set temperature;

and when the current indoor humidity is greater than the third preset humidity, judging that the target interval is a first target interval.

15. The air conditioner controlling method as claimed in claim 14, wherein the step of determining whether the current indoor humidity is greater than a third preset humidity corresponding to the set temperature further comprises, after the step of determining whether the current indoor humidity is greater than the third preset humidity, the step of:

when the current indoor humidity is less than or equal to the third preset humidity, determining whether the temperature difference is greater than a third preset temperature difference corresponding to the set temperature;

when the temperature difference is larger than the third preset temperature difference, judging that the target interval is a first target interval;

and when the temperature difference is smaller than or equal to the third preset temperature difference, judging that the target interval is a second target interval.

16. An air conditioner, characterized in that the air conditioner comprises: a memory, a processor, and an air conditioner control program stored on the memory and executable on the processor, the air conditioner control program when executed by the processor implementing the steps of the air conditioner control method as claimed in any one of claims 1 to 15.

17. A computer-readable storage medium, characterized in that an air conditioner control program is stored thereon, which when executed by a processor implements the steps of the air conditioner control method according to any one of claims 1 to 15.

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