CN111351189A - Operation method and device of air conditioner, air conditioner and computer readable storage medium - Google Patents

Abstract

The invention provides an operation method and device of an air conditioner, the air conditioner and a computer readable storage medium. Wherein, the top of air conditioner is equipped with the first air-out subassembly of telescopic, and the operation method includes: responding to an appointed wind bathing instruction in a refrigeration mode, and controlling the first wind outlet assembly to extend out of the air conditioner so as to open a wind outlet of the first wind outlet assembly; adjusting an air outlet included angle of the first air outlet assembly to a first angle range according to the designated air bathing command; and adjusting the air supply speed of the first air outlet assembly to a first air speed range according to the designated air bathing instruction. Through the technical scheme of the invention, the specified wind bathing experience of the user is improved while the heat exchange efficiency of the air conditioner is ensured.

Description

Operation method and device of air conditioner, air conditioner and computer readable storage medium

Technical Field

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

Background

The existing cabinet air conditioner is generally provided with an air outlet on the side surface, horizontally supplies air, and meets the requirements of users by adjusting the air speed and the air direction, but when the running frequency of the compressor is high, if the air output and the air speed of the air outlet on the side surface are reduced for reducing the blowing feeling of the users, the indoor temperature change rate is influenced, and the use experience of the users is influenced.

Moreover, any discussion of the prior art throughout the specification is not an admission that the prior art is necessarily known to a person of ordinary skill in the art, and any discussion of the prior art throughout the specification is not an admission that the prior art is necessarily widely known or forms part of common general knowledge in the field.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, an object of the present invention is to provide an operation method of an air conditioner.

Another object of the present invention is to provide an operating device of an air conditioner.

Another object of the present invention is to provide an air conditioner.

It is another object of the present invention to provide a computer-readable storage medium.

In order to achieve the above object, according to an embodiment of the first aspect of the present invention, there is provided an operation method of an air conditioner, in which a top of the air conditioner is provided with a first retractable outlet assembly, the operation method including: responding to a designated wind bathing instruction in a refrigeration mode, and controlling the first wind outlet assembly to extend out of the air conditioner so as to open the wind outlet of the first wind outlet assembly; adjusting an air outlet included angle of the first air outlet assembly to a first angle range according to the specified air bathing command; and adjusting the air supply speed of the first air outlet assembly to a first air speed range according to the specified wind bathing instruction.

In the technical scheme, the first air outlet assembly is controlled to stretch out of the air conditioner by responding to the specified air bathing instruction in the refrigeration mode so as to open the air outlet of the first air outlet assembly, namely, cold air is blown to the indoor environment through the first air outlet assembly.

Furthermore, the air outlet included angle of the first air outlet assembly is adjusted to the first angle range according to the designated air bathing instruction, so that the air outlet quantity of the first air outlet assembly is increased, and more cold air is blown out through the first air outlet assembly.

Similarly, the air supply speed of the first air outlet assembly is adjusted to the first air speed range according to the designated air bathing instruction, so that the air output of the first air outlet assembly is increased, and the refrigerating efficiency of the air conditioner to the indoor environment is ensured.

Wherein, because first air-out subassembly is can stretch out and draw back, consequently, under the prerequisite that does not influence air conditioner outward appearance and occupation space, can stretch out to the air conditioner outside according to appointed wind instruction of bathing to blow cold wind.

In summary, the specified wind bathing instruction is an instruction sent by the first wind outlet assembly, the first wind outlet assembly is provided with a panel with thousands of micro-holes, so that the cold wind of the air conditioner is gently pushed into a room through the micro-holes and is blown to the top of the indoor environment, for example, the first wind outlet assembly is opened to the maximum opening of 10 cm-20 cm, the flow speed of the cold wind around the user is not more than 0.15m/s, the wind supply angle and/or the wind supply speed of the first wind outlet assembly are/is adjusted, so as to more accurately adjust the parameters of the wind output, the wind temperature, the wind direction and the like of the first wind outlet assembly, and the wind temperature also depends on the operating frequency of the compressor.

In any of the above technical solutions, preferably, a first driving mechanism capable of rotating horizontally is disposed between the first air outlet assembly and the air conditioner body, and the operation method further includes: and triggering the first driving mechanism to control the first air outlet assembly to swing or rotate in the horizontal direction according to the designated air bathing command so as to control the first air outlet assembly to swing and supply air in the horizontal direction.

In this technical scheme, through triggering first actuating mechanism control first air-out subassembly swings or rotates in the horizontal direction, can make first air-out subassembly to a plurality of horizontal direction air supplies, can make cold wind want each direction of indoor environment to blow, and then make the temperature distribution of indoor air more even.

In any one of the above technical solutions, preferably, a second driving mechanism capable of rotating vertically is disposed between the first air outlet assembly and the air conditioner body, and adjusts an air outlet included angle of the first air outlet assembly to a first angle range according to the specified air shower command, specifically including: and triggering the second driving mechanism to control the first air outlet assembly to swing in the vertical direction according to the designated air bathing instruction until the air outlet included angle of the first air outlet assembly belongs to a first angle range.

In the technical scheme, the second driving mechanism is triggered to control the first air outlet assembly to swing in the vertical direction according to the designated air bathing instruction, and the air outlet included angle of the first air outlet assembly belongs to the first angle range, so that the size of the air outlet of the first air outlet assembly can be flexibly adjusted, and the heat exchange requirement of a user on an indoor environment is met to the greatest extent.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly includes a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide assembly to horizontally swing until the air outlet angle of the first air guide assembly is smaller than or equal to a second angle, and/or controlling the second air guide assembly to vertically swing upwards to the second angle by taking a horizontal plane as a reference plane.

In the technical scheme, the second air outlet assembly is arranged on the side part of the air conditioner, the air outlet of the second air outlet assembly is opened according to the designated air bathing instruction, so that cold air is supplied to the side part of the air conditioner in an auxiliary mode, and furthermore, the second air outlet assembly does not blow air to the two sides of the air conditioner by adjusting the air supply angle and/or the air supply speed of the second air outlet assembly.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly includes a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide assembly to horizontally and reciprocally swing within a third angle, wherein the third angle is the maximum value of the air outlet angle of the first air guide assembly, and/or controlling the second air guide assembly to vertically swing upwards to a fourth angle by taking a horizontal plane as a reference plane.

In the technical scheme, the air outlet of the second air outlet assembly is opened according to the specified air bathing command; the first air guide component is controlled to horizontally swing in a reciprocating mode in the third angle, the third angle is the maximum value of the air outlet angle of the first air guide component, and/or the horizontal plane is used as a reference surface to control the second air guide component to vertically swing upwards to the fourth angle, on one hand, the second air guide component blows upwards, the air outlet amount of an air outlet corresponding to the second air guide component is reduced, and therefore the air volume of a cold air horizontal direct blowing user is reduced, on the other hand, the first air guide component swings in the third angle to supply air, and the air volume of the cold air horizontal direct blowing user is reduced.

The natural blowing direction of the cooling air is taken as a reference line, the third angle is an included angle between the reference line and one reference surface on the first air guide assembly, the third angle is in negative correlation with the air output, and the third angle is usually larger than or equal to 40 degrees.

In addition, the horizontal plane is used as a reference plane, the fourth angle is an included angle between the second air guiding assembly and the reference plane, the fourth angle is in negative correlation with the air output, and the fourth angle is generally greater than or equal to 45 degrees.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature; and adjusting the maximum operation frequency of a compressor of the air conditioner according to the specified wind blowing instruction and the ambient temperature.

In the technical scheme, the maximum operation frequency of the compressor of the air conditioner is adjusted according to the specified wind blowing instruction and the ambient temperature, so that the blowing feeling of a user is favorably reduced, and the power consumption of the air conditioner is favorably reduced, for example, in a refrigeration mode, the ambient temperature is higher than 39 ℃, and the maximum operation frequency can be reduced to reduce the refrigerating capacity in order to avoid obvious cold wind blowing feeling caused by overlarge temperature difference.

Wherein the maximum operating frequency is preferably set to 50 Hz.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature; and adjusting the target operation temperature of the air conditioner according to the specified wind blowing instruction and the environment temperature.

In the technical scheme, the target operation temperature of the air conditioner is adjusted according to the specified wind bathing instruction and the environment temperature, the target operation temperature is a default temperature, the blowing feeling of a user is further reduced, for example, in a refrigeration mode, the environment temperature is higher than 39 ℃, and in order to avoid obvious cold wind blowing feeling caused by excessive temperature difference, the target operation temperature can be set to be higher than 26 ℃.

In addition, the ambient temperature may be periodically detected, that is, as the ambient temperature decreases, the target operation temperature in the cooling mode is controlled to decrease, or the maximum operation frequency of the compressor is increased.

In any of the above technical solutions, preferably, a first fan and a second fan are further disposed inside a box body of the air conditioner, the first fan is disposed near the bottom of the air conditioner, and the second fan is disposed near the top of the air conditioner.

Wherein, the first fan is a centrifugal fan, and the rotating speed range of the first fan is 400-500 revolutions.

In addition, the air supply quantity is determined by combining the air supply angle and the air supply speed of the first air outlet assembly, and the rotating speed of the first fan is inversely related to the air supply quantity.

Wherein the second fan is an axial flow fan, and the rotating speed range of the second fan is 1000-1100 revolutions.

In addition, the air supply quantity is determined by combining the air supply angle and the air supply speed of the first air outlet assembly, and the rotating speed of the second fan is inversely related to the air supply quantity.

According to a second aspect of the present invention, there is provided an operation device of an air conditioner, comprising: a memory and a processor, the memory being configured to store a computer program, the computer program, when executed by the processor, being capable of implementing the steps of the method of operating an air conditioner as defined in any one of the above claims.

According to a third aspect of the present invention, there is provided an air conditioner comprising: the first air outlet assembly is telescopically arranged at the top of the air conditioner; and the operation device is connected with the first air outlet assembly and comprises a memory and a processor, the memory is used for storing a computer program, and the processor executes the computer program so as to realize the steps of the operation method of the air conditioner defined by any one technical scheme.

According to an aspect of the fourth aspect of the present invention, there is provided a computer-readable storage medium having a computer program stored thereon, the computer program, when executed, implementing the method of operating an air conditioner as defined in any one of the above aspects.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flowchart illustrating an operation method of an air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating an operation method of an air conditioner according to another embodiment of the present invention;

fig. 3 is a schematic block diagram illustrating an operation device of an air conditioner according to an embodiment of the present invention;

FIG. 4 illustrates a schematic block diagram of an air conditioner according to an embodiment of the present invention;

FIG. 5 illustrates a schematic diagram of an air conditioner according to an embodiment of the present invention;

FIG. 6 shows a schematic block diagram of a computer-readable storage medium according to an embodiment of the invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Embodiments of an operation method and apparatus of an air conditioner, and a computer-readable storage medium according to embodiments of the present invention are specifically described below with reference to fig. 1 to 6.

As shown in fig. 1, 4 and 5, an operation method of an air conditioner 400 according to an embodiment of the present invention includes: step S102, in response to a designated wind-bathing instruction in the cooling mode, controlling the first wind outlet assembly 402 to extend out of the air conditioner 400, so as to open the wind outlet of the first wind outlet assembly 402; step S104, adjusting the air outlet included angle of the first air outlet assembly 402 to a first angle range according to the specified air shower instruction; step S106, adjusting the air supply speed of the first air outlet assembly 402 to a first air speed range according to the designated wind-bathing instruction.

In this technical solution, by responding to the designated wind bathing command in the cooling mode, the first wind outlet assembly 402 is controlled to extend out of the air conditioner 400, so as to open the wind outlet of the first wind outlet assembly 402, that is, cool wind is blown to the indoor environment through the first wind outlet assembly 402, because the installation position of the first wind outlet assembly 402 is usually higher than the height of the user, the cool wind is not directly blown to the user, and meanwhile, the ventilation requirement of the indoor environment can be ensured.

Further, the air outlet included angle of the first air outlet assembly 402 is adjusted to the first angle range according to the designated air-bathing instruction, so as to increase the air outlet amount of the first air outlet assembly 402, that is, more cold air is blown out through the first air outlet assembly 402.

Similarly, the air supply speed of the first air outlet assembly 402 is adjusted to the first air speed range according to the designated air-bathing instruction, which is also beneficial to increasing the air output of the first air outlet assembly 402, so as to ensure the refrigeration efficiency of the air conditioner 400 on the indoor environment.

The blowing sensation index DR of the air conditioner 400 may be calculated according to equation (1-1).

DR＝(34-t_a)(v_a-0.05)^0.62(0.37×v_a×Tu+3.14)………………………(1-1)

In the formula: DR-the feel index, the percentage of dissatisfaction due to feel; if DR > 100%, DR is 100%.

t_aLocal air temperature, ° c.

v_a-local mean air velocity, m/s; if va is less than or equal to 0.05m/s, va is 0.05 m/s.

Tu — local turbulence intensity, defined as the ratio of the standard deviation SD of the local air flow rate to the local mean air flow rate,%,

the standard deviation SD of the local air flow rate is calculated according to the formula (1-2):

in the formula: v. of_aiThe instantaneous velocity of the local air temperature at time i, m/s.

Since the first air outlet assembly 402 is retractable, it can extend out of the air conditioner 400 according to a designated air-bath command without affecting the appearance and the occupied space of the air conditioner 400, so as to blow the cool air generated by heat exchange through the heat exchanger 406.

In summary, according to the designated wind-bathing command, the air-supply angle and/or the air-supply speed of the first air-outlet assembly 402 are/is adjusted to more accurately adjust the parameters of the air-output quantity, the air temperature, the air direction, and the like of the first air-outlet assembly 402, and in addition, the air temperature also depends on the operating frequency of the compressor.

In any of the above technical solutions, preferably, a first driving mechanism capable of rotating horizontally is disposed between the first air outlet assembly 402 and the main body of the air conditioner 400, and the operation method further includes: according to the designated wind-bathing instruction, triggering the first driving mechanism to control the first wind outlet assembly 402 to swing or rotate in the horizontal direction, so as to control the first wind outlet assembly 402 to swing and supply wind in the horizontal direction.

In this technical scheme, the first driving mechanism is triggered to control the first air outlet assembly 402 to swing or rotate in the horizontal direction, so that the first air outlet assembly 402 can supply air to a plurality of horizontal directions, cold air can be blown to each direction of the indoor environment, and the temperature distribution of the indoor air is more uniform.

In any of the above technical solutions, preferably, a second driving mechanism capable of rotating vertically is disposed between the first air outlet assembly 402 and the body of the air conditioner 400, and according to the specified wind bathing command, the method for adjusting the air outlet included angle of the first air outlet assembly 402 to the first angle range specifically includes: and triggering the second driving mechanism to control the first air outlet assembly 402 to swing in the vertical direction according to the designated air-bathing instruction until the air outlet included angle of the first air outlet assembly 402 belongs to a first angle range.

In this technical scheme, the second driving mechanism is triggered to control the first air outlet assembly 402 to swing in the vertical direction according to the designated air bathing instruction, and the air outlet included angle of the first air outlet assembly 402 belongs to the first angle range, so that the size of the air outlet of the first air outlet assembly 402 can be flexibly adjusted, and the heat exchange requirement of a user on an indoor environment can be met to the greatest extent.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner 400, the second air outlet assembly includes a first air guide assembly 4042 capable of swinging in a horizontal direction and a second air guide assembly 4044 capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide component 4042 to horizontally swing until the air outlet angle of the first air guide component 4042 is smaller than or equal to a second angle, and/or controlling the second air guide component 4044 to vertically swing upwards to the second angle by taking a horizontal plane as a reference plane.

In this technical scheme, the lateral part of the air conditioner 400 is provided with the second air outlet assembly, and the air outlet of the second air outlet assembly is opened according to the designated air blowing instruction, that is, the lateral part of the air conditioner assists in supplying cold air, and further, the second air outlet assembly does not blow air to the two sides of the air conditioner 400 by adjusting the air supply angle and/or the air supply speed of the second air outlet assembly.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner 400, the second air outlet assembly includes a first air guide assembly 4042 capable of swinging in a horizontal direction and a second air guide assembly 4044 capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide component 4042 to horizontally and reciprocally swing in a third angle, wherein the third angle is the maximum value of the air outlet angle of the first air guide component 4042, and/or controlling the second air guide component 4044 to vertically swing upwards to a fourth angle by taking a horizontal plane as a reference plane.

In the technical scheme, the air outlet of the second air outlet assembly is opened according to the specified air bathing command; control first wind guide component 4042 is reciprocal swing of level in the third angle, and the third angle does first wind guide component 4042's the maximum value of air-out angle, and/or use the horizontal plane as the reference surface, control second wind guide component 4044 is vertical upwards to swing to the fourth angle, and on the one hand, make second wind guide component 4044 upwards blow, reduced the air output of the air outlet that second wind guide component 4044 corresponds to reduce the air volume of cold wind level direct-blow user, on the other hand, make first wind guide component 4042 swing air supply in the third angle, the same reason also is favorable to reducing the air volume of cold wind level direct-blow user, makes the cooling air avoid the user to blow.

The direction of the natural blowing of the cooling air is taken as a reference line, the third angle is an included angle between the reference line and a reference surface on the first air guide component 4042, the third angle is inversely related to the air output, and the third angle is usually greater than or equal to 40 degrees.

In addition, the horizontal plane is taken as a reference plane, the fourth angle is an included angle between the second air guiding assembly 4044 and the reference plane, the fourth angle is negatively correlated with the air output, and the fourth angle is usually greater than or equal to 45 degrees.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment in which the air conditioner 400 is located, and recording the temperature as the environment temperature; adjusting the maximum operating frequency of the compressor of the air conditioner 400 according to the designated wind-bathing command and the ambient temperature.

In this technical solution, the maximum operating frequency of the compressor of the air conditioner 400 is adjusted according to the specified wind bathing instruction and the ambient temperature, which is not only beneficial to reducing the blowing feeling of the user, but also beneficial to reducing the power consumption of the air conditioner 400, for example, in the cooling mode, the ambient temperature is higher than 39 ℃, so as to avoid an obvious cold wind blowing feeling caused by an excessive temperature difference, the maximum operating frequency can be reduced, so as to reduce the cooling capacity.

Wherein the maximum operating frequency is preferably set to 50 Hz.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment in which the air conditioner 400 is located, and recording the temperature as the environment temperature; and adjusting the target operation temperature of the air conditioner 400 according to the specified wind blowing instruction and the ambient temperature.

In this embodiment, the target operation temperature of the air conditioner 400 is adjusted according to the designated air-bath command and the ambient temperature, and the target operation temperature is a default temperature, so as to further reduce the blowing feeling of the user, for example, in the cooling mode, the ambient temperature is higher than 39 ℃, and in order to avoid an obvious blowing feeling of cold air due to an excessive temperature difference, the target operation temperature may be set to be higher than 26 ℃.

In addition, the ambient temperature may be periodically detected, that is, as the ambient temperature decreases, the target operation temperature in the cooling mode is controlled to decrease, or the maximum operation frequency of the compressor is increased.

In any of the above technical solutions, preferably, a first fan 4046 and a second fan 4048 are further disposed inside the box of the air conditioner 400, the first fan 4046 is disposed near the bottom of the air conditioner 400, and the second fan 4048 is disposed near the top of the air conditioner 400.

The first fan 4046 is a centrifugal fan, and the rotation speed of the first fan 4046 is 400 to 500 revolutions.

In addition, the air supply amount is determined by combining the air supply angle and the air supply speed of the first air outlet assembly 402, and the rotation speed of the first fan 4046 is inversely related to the air supply amount.

The second fan 4048 is an axial flow fan, and the rotation speed of the second fan 4048 is 1000-1100 revolutions.

In addition, the air supply amount is determined by combining the air supply angle and the air supply speed of the first air outlet assembly 402, and the rotation speed of the second fan 4048 is inversely related to the air supply amount.

As shown in fig. 2, an operation method of an air conditioner according to another embodiment of the present invention includes:

in step S202, the air conditioner is turned on (remote control or key operation).

In step S204, a sliding door is opened, wherein the sliding door refers to a door body capable of sliding between the top direction and the bottom direction of the air conditioner, or a door body capable of sliding in the horizontal direction, but is not limited thereto.

For example, the air outlet of the air conditioner side portion is gradually blocked when the sliding door slides in the top direction, and the air outlet of the air conditioner side portion is gradually opened when the sliding door slides in the bottom direction.

For example, the air outlet of the air conditioner side portion is gradually blocked when the sliding door slides to the horizontal left side, and the air outlet of the air conditioner side portion is gradually opened when the sliding door slides to the horizontal right side.

And step S206, the air conditioner circularly detects external signals (remote control infrared signals, WIFI radio frequency signals and key touch signals).

Step S208, whether or not the "day-designated shower" turn-on signal is received.

Step S210, determine whether the air conditioner is operating in the cooling mode? If yes, go to step S214, otherwise go to step S212.

In step S212, the air conditioner does not respond (no-load control).

Step S214, the buzzer sounds to respond to the user.

And step S216, entering the designated wind-bathing function control.

Step S218, determine whether the sliding door is opened? If yes, go to step S220, otherwise go to step S216.

Step S220, determine whether the air guide strip is reset to complete? If yes, go to step S222, otherwise go to step S216.

In step S222, the load operation is controlled.

Step S224, adjusting the horizontal air guide strips to swing upwards to a maximum angle; the vertical air guide strips are driven to the maximum angle from left to right.

And step S226, adjusting the rotating speed of the axial flow fan and the rotating speed of the centrifugal fan.

In step S228, the top air outlet device is opened to the maximum opening degree.

Step S230, adjusting the frequency of the compressor, and adjusting the output temperature of the air conditioner.

In addition, the "sky shower wind command" is a naming mode for designating a shower wind command, and may be named as a "top shower wind command" and a "upper shower wind command", etc., but is not limited thereto.

As shown in fig. 3, the operating device 300 of the air conditioner according to the embodiment of the present invention includes: a memory 302 and a processor 304, the memory 302 being configured to store a computer program, the computer program, when executed by the processor 304, being capable of implementing the steps of the method of operating an air conditioner as defined in any one of the above claims.

As shown in fig. 4 and 5, an air conditioner 400 according to an embodiment of the present invention includes: the first air outlet assembly 402 is telescopically arranged at the top of the air conditioner 400; and an operation device connected to the first air outlet assembly, wherein the operation device includes a memory and a processor, the memory is used for storing a computer program, and the processor executes the computer program to implement the steps of the operation method of the air conditioner 400 defined in any one of the above technical solutions.

As shown in fig. 6, according to the computer-readable storage medium 500 of the embodiment of the present invention, the computer-readable storage medium stores a computer program, and when the computer program is executed by the air conditioner 400, the method for operating the air conditioner as defined in any one of the above technical solutions is implemented, and specifically includes the following steps: responding to a designated wind bathing instruction in a refrigeration mode, and controlling the first wind outlet assembly to extend out of the air conditioner so as to open the wind outlet of the first wind outlet assembly; adjusting an air outlet included angle of the first air outlet assembly to a first angle range according to the specified air bathing command; and adjusting the air supply speed of the first air outlet assembly to a first air speed range according to the specified wind bathing instruction.

In the technical scheme, the first air outlet assembly is controlled to stretch out of the air conditioner by responding to the specified air bathing instruction in the refrigeration mode so as to open the air outlet of the first air outlet assembly, namely, cold air is blown to the indoor environment through the first air outlet assembly.

Furthermore, the air outlet included angle of the first air outlet assembly is adjusted to the first angle range according to the designated air bathing instruction, so that the air outlet quantity of the first air outlet assembly is increased, and more cold air is blown out through the first air outlet assembly.

Similarly, the air supply speed of the first air outlet assembly is adjusted to the first air speed range according to the designated air bathing instruction, so that the air output of the first air outlet assembly is increased, and the refrigerating efficiency of the air conditioner to the indoor environment is ensured.

Wherein, because first air-out subassembly is can stretch out and draw back, consequently, under the prerequisite that does not influence air conditioner outward appearance and occupation space, can stretch out to the air conditioner outside according to appointed wind instruction of bathing to blow cold wind.

In summary, according to the designated wind bathing instruction, the air supply angle and/or the air supply speed of the first air outlet assembly are/is adjusted to more accurately adjust the parameters of the air output, the air temperature, the air direction and the like of the first air outlet assembly, and in addition, the air temperature also depends on the operation frequency of the compressor.

In any of the above technical solutions, preferably, a first driving mechanism capable of rotating horizontally is disposed between the first air outlet assembly and the air conditioner body, and the operation method further includes: and triggering the first driving mechanism to control the first air outlet assembly to swing or rotate in the horizontal direction according to the designated air bathing command so as to control the first air outlet assembly to swing and supply air in the horizontal direction.

In this technical scheme, through triggering first actuating mechanism control first air-out subassembly swings or rotates in the horizontal direction, can make first air-out subassembly to a plurality of horizontal direction air supplies, can make cold wind want each direction of indoor environment to blow, and then make the temperature distribution of indoor air more even.

In any one of the above technical solutions, preferably, a second driving mechanism capable of rotating vertically is disposed between the first air outlet assembly and the air conditioner body, and adjusts an air outlet included angle of the first air outlet assembly to a first angle range according to the specified air shower command, specifically including: and triggering the second driving mechanism to control the first air outlet assembly to swing in the vertical direction according to the designated air bathing instruction until the air outlet included angle of the first air outlet assembly belongs to a first angle range.

In the technical scheme, the second driving mechanism is triggered to control the first air outlet assembly to swing in the vertical direction according to the designated air bathing instruction, and the air outlet included angle of the first air outlet assembly belongs to the first angle range, so that the size of the air outlet of the first air outlet assembly can be flexibly adjusted, and the heat exchange requirement of a user on an indoor environment is met to the greatest extent.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly includes a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide assembly to horizontally swing until the air outlet angle of the first air guide assembly is smaller than or equal to a second angle, and/or controlling the second air guide assembly to vertically swing upwards to the second angle by taking a horizontal plane as a reference plane.

In the technical scheme, the second air outlet assembly is arranged on the side part of the air conditioner, the air outlet of the second air outlet assembly is opened according to the designated air bathing instruction, so that cold air is supplied to the side part of the air conditioner in an auxiliary mode, and furthermore, the second air outlet assembly does not blow air to the two sides of the air conditioner by adjusting the air supply angle and/or the air supply speed of the second air outlet assembly.

In any one of the above technical solutions, preferably, a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly includes a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, and the operation method includes: opening an air outlet of the second air outlet assembly according to the specified air bathing command; and controlling the first air guide assembly to horizontally and reciprocally swing within a third angle, wherein the third angle is the maximum value of the air outlet angle of the first air guide assembly, and/or controlling the second air guide assembly to vertically swing upwards to a fourth angle by taking a horizontal plane as a reference plane.

In the technical scheme, the air outlet of the second air outlet assembly is opened according to the specified air bathing command; the first air guide component is controlled to horizontally swing in a reciprocating mode in the third angle, the third angle is the maximum value of the air outlet angle of the first air guide component, and/or the horizontal plane is used as a reference surface to control the second air guide component to vertically swing upwards to the fourth angle, on one hand, the second air guide component blows upwards, the air outlet amount of an air outlet corresponding to the second air guide component is reduced, and therefore the air volume of a cold air horizontal direct blowing user is reduced, on the other hand, the first air guide component swings in the third angle to supply air, and the air volume of the cold air horizontal direct blowing user is reduced.

The natural blowing direction of the cooling air is taken as a reference line, the third angle is an included angle between the reference line and one reference surface on the first air guide assembly, the third angle is in negative correlation with the air output, and the third angle is usually larger than or equal to 40 degrees.

In addition, the horizontal plane is used as a reference plane, the fourth angle is an included angle between the second air guiding assembly and the reference plane, the fourth angle is in negative correlation with the air output, and the fourth angle is generally greater than or equal to 45 degrees.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature; and adjusting the maximum operation frequency of a compressor of the air conditioner according to the specified wind blowing instruction and the ambient temperature.

In the technical scheme, the maximum operation frequency of the compressor of the air conditioner is adjusted according to the specified wind blowing instruction and the ambient temperature, so that the blowing feeling of a user is favorably reduced, and the power consumption of the air conditioner is favorably reduced, for example, in a refrigeration mode, the ambient temperature is higher than 39 ℃, and the maximum operation frequency can be reduced to reduce the refrigerating capacity in order to avoid obvious cold wind blowing feeling caused by overlarge temperature difference.

Wherein the maximum operating frequency is preferably set to 50 Hz.

In any of the above technical solutions, preferably, the method further includes: detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature; and adjusting the target operation temperature of the air conditioner according to the specified wind blowing instruction and the environment temperature.

In the technical scheme, the target operation temperature of the air conditioner is adjusted according to the specified wind bathing instruction and the environment temperature, the target operation temperature is a default temperature, the blowing feeling of a user is further reduced, for example, in a refrigeration mode, the environment temperature is higher than 39 ℃, and in order to avoid obvious cold wind blowing feeling caused by excessive temperature difference, the target operation temperature can be set to be higher than 26 ℃.

In addition, the ambient temperature may be periodically detected, that is, as the ambient temperature decreases, the target operation temperature in the cooling mode is controlled to decrease, or the maximum operation frequency of the compressor is increased.

In any of the above technical solutions, preferably, a first fan and a second fan are further disposed inside a box body of the air conditioner, the first fan is disposed near the bottom of the air conditioner, and the second fan is disposed near the top of the air conditioner.

Wherein, the first fan is a centrifugal fan, and the rotating speed range of the first fan is 400-500 revolutions.

In addition, the air supply quantity is determined by combining the air supply angle and the air supply speed of the first air outlet assembly, and the rotating speed of the first fan is inversely related to the air supply quantity.

Wherein the second fan is an axial flow fan, and the rotating speed range of the second fan is 1000-1100 revolutions.

In addition, the air supply quantity is determined by combining the air supply angle and the air supply speed of the first air outlet assembly, and the rotating speed of the second fan is inversely related to the air supply quantity.

The technical scheme of the invention is described in detail above with reference to the accompanying drawings, and the invention provides an operation method and device of an air conditioner, the air conditioner and a computer readable storage medium, wherein the first air outlet assembly is controlled to extend out of the air conditioner in response to a designated air bathing instruction in a refrigeration mode so as to open an air outlet of the first air outlet assembly, that is, cold air is blown to an indoor environment through the first air outlet assembly.

The steps in the method of the invention can be sequentially adjusted, combined and deleted according to actual needs.

The units in the device of the invention can be merged, divided and deleted according to actual needs.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by instructions associated with a program, which may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), compact disc-Read-Only Memory (CD-ROM), or other Memory, magnetic disk, magnetic tape, or magnetic tape, Or any other medium which can be used to carry or store data and which can be read by a computer.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An operation method of an air conditioner is characterized in that a first telescopic air outlet assembly is arranged at the top of the air conditioner, and the operation method comprises the following steps:

responding to a designated wind bathing instruction in a refrigeration mode, and controlling the first wind outlet assembly to extend out of the air conditioner so as to open the wind outlet of the first wind outlet assembly;

adjusting an air outlet included angle of the first air outlet assembly to a first angle range according to the specified air bathing command;

and adjusting the air supply speed of the first air outlet assembly to a first air speed range according to the specified wind bathing instruction.

2. The operation method of the air conditioner according to claim 1, wherein a first driving mechanism capable of rotating horizontally is provided between the first outlet assembly and the body of the air conditioner, and the operation method further comprises:

and triggering the first driving mechanism to control the first air outlet assembly to swing or rotate in the horizontal direction according to the designated air bathing command so as to control the first air outlet assembly to swing and supply air in the horizontal direction.

3. The operation method of the air conditioner according to claim 1, wherein a second driving mechanism capable of rotating vertically is disposed between the first air outlet assembly and the air conditioner body, and the adjusting the air outlet included angle of the first air outlet assembly to a first angle range according to the specified air-bath command specifically comprises:

and triggering the second driving mechanism to control the first air outlet assembly to swing in the vertical direction according to the designated air bathing instruction until the air outlet included angle of the first air outlet assembly belongs to a first angle range.

4. The operation method of an air conditioner according to any one of claims 1 to 3, wherein a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly including a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, the operation method comprising:

opening an air outlet of the second air outlet assembly according to the specified air bathing command;

controlling the first air guide component to horizontally swing until the air outlet angle of the first air guide component is smaller than or equal to a second angle,

and/or controlling the second air guide assembly to vertically swing upwards to a second angle by taking the horizontal plane as a reference plane.

5. The operation method of an air conditioner according to any one of claims 1 to 3, wherein a second air outlet assembly is provided at a side portion of the air conditioner, the second air outlet assembly including a first air guide assembly capable of swinging in a horizontal direction and a second air guide assembly capable of swinging in a vertical line direction, the operation method comprising:

opening an air outlet of the second air outlet assembly according to the specified air bathing command;

the first air guide component is controlled to horizontally swing back and forth within a third angle, the third angle is the maximum value of the air outlet angle of the first air guide component,

and/or controlling the second air guide assembly to vertically swing upwards to a fourth angle by taking the horizontal plane as a reference plane.

6. The operating method of an air conditioner according to any one of claims 1 to 3, further comprising:

detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature;

and adjusting the maximum operation frequency of a compressor of the air conditioner according to the specified wind blowing instruction and the ambient temperature.

7. The operating method of an air conditioner according to any one of claims 1 to 3, further comprising:

detecting the temperature of the environment where the air conditioner is located, and recording the temperature as the environment temperature;

and adjusting the target operation temperature of the air conditioner according to the specified wind blowing instruction and the environment temperature.

8. An operation device of an air conditioner, comprising:

a memory and a processor, the memory being configured to be able to store a computer program, the computer program being able to carry out the steps of the method of operating an air conditioner according to any one of claims 1 to 7 when executed by the processor.

9. An air conditioner, comprising:

the first air outlet assembly is telescopically arranged at the top of the air conditioner;

an operation device connected to the first air outlet assembly, wherein the operation device includes a memory for storing a computer program and a processor for executing the computer program to implement the steps of the operation method of the air conditioner according to any one of claims 1 to 7.

10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which when executed, implements an operating method of an air conditioner according to any one of claims 1 to 7.

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