CN111023520A - Operation method, device, air conditioner and computer readable storage medium - Google Patents

Abstract

The invention provides an operation method, an operation device, an air conditioner and a computer readable storage medium, wherein a shell of the air conditioner is provided with an air outlet, a first group of air guide components and a second group of air guide components are sequentially arranged at the air outlet along the height direction of the shell, and the air conditioner control method comprises the following steps: responding to the customized air supply instruction, and analyzing a horizontal soft wind direction and a vertical soft wind direction contained in the customized air supply instruction; and adjusting the swing angle of the first group of air guide assemblies and/or adjusting the swing angle of the second group of air guide assemblies and/or adjusting the operating parameter threshold of the air conditioner according to the horizontal soft wind direction and the vertical soft wind direction. Through the technical scheme of the invention, the non-wind-sensation experience of the user is improved, and the reliability and the energy efficiency of the air conditioner are further improved.

Description

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

Technical Field

The invention relates to the technical field of operation, 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

Along with the continuous improvement of people's standard of living, also more and more high to the demand of air conditioner, in order to promote user's use and experience, more and more air conditioners are developed and can select the interval of blowing by oneself, carry out the function that no wind feels is bloied.

In the correlation technique, prevent directly blowing the function and mainly focus on avoiding opening user's active area, but, through adjusting air guide component's open angle promptly to and reduce the fan rotational speed, promote no wind sense effect, nevertheless, air guide component's structure setting and wind-guiding mode are all more single, and have influenced air conditioner and the indoor environment and have carried out the efficiency of heat transfer, simultaneously, also do not benefit to the efficiency that further promotes the air conditioner.

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.

In view of the above, 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.

It is still another object of the present invention to provide an air conditioner.

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

In order to achieve the above object, a first aspect of the present invention provides an operating method of an air conditioner, where a casing of the air conditioner has an air outlet, and the air outlet is sequentially provided with a first group of air guide assemblies and a second group of air guide assemblies along a height direction of the casing, and the air conditioner control method includes: responding to the customized air supply instruction, and analyzing a horizontal soft wind direction and a vertical soft wind direction contained in the customized air supply instruction; and adjusting the swing angle of the first group of air guide assemblies and/or adjusting the swing angle of the second group of air guide assemblies and/or adjusting the operating parameter threshold of the air conditioner according to the horizontal soft wind direction and the vertical soft wind direction.

In the technical scheme, the customized air supply instruction is responded, the horizontal soft air direction and the vertical soft air direction contained in the customized air supply instruction are analyzed, and then the swing angle of the first group of air guide assemblies is adjusted, and/or the swing angle of the second group of air guide assemblies is adjusted, so that the non-wind experience of a user is improved, and the reliability and the energy efficiency of the air conditioner are further improved.

The customized air supply instruction means that air at the air outlet is blown to a user as softly as possible, so that the first group of air guide assemblies and/or the second group of air guide assemblies are controlled to swing towards the second side, namely, the first group of air guide assemblies and the second group of air guide assemblies are controlled to supply air to two sides of the air conditioner, and soft air feeling experience is provided for the user.

In addition, under the customized air supply instruction, the operation parameter threshold of the air conditioner can be increased according to the user instruction, for example, the operation parameter threshold can be increased when the temperature difference between the target temperature set by the user and the ambient temperature is large or the air speed set by the user is high.

In above-mentioned technical scheme, first group's air guide component includes first horizontal air guide component, and second group's air guide component includes the horizontal air guide component of second, according to horizontal gentle wind direction and vertical gentle wind direction, adjusts first group's air guide component's pivot angle, and/or adjusts second group's air guide component's pivot angle, specifically includes: and determining that the horizontal soft wind direction is the horizontal direction of a first side in the horizontal direction, controlling the first horizontal wind guide assembly to swing towards the horizontal direction of the first side until a first angle is reached, and/or controlling the second horizontal wind guide assembly to swing towards the horizontal direction of the first side until a second angle is reached.

In the technical scheme, the first horizontal air guide assembly is controlled to swing towards the horizontal direction of the first side until the first angle is reached, and/or the second horizontal air guide assembly is controlled to swing towards the horizontal direction of the first side until the second angle is reached, namely the first group of air guide assembly and the second group of air guide assembly are controlled to supply air to two sides of the air conditioner respectively, so that the soft wind feeling experience is provided for a user.

In above-mentioned technical scheme, first group's air guide component still includes first vertical air guide component, and second group's air guide component includes the vertical air guide component of second, according to horizontal gentle wind direction and vertical gentle wind direction, adjusts first group's air guide component's pivot angle, and/or adjusts second group's air guide component's pivot angle, specifically includes: and determining that the vertical soft wind direction is the vertical direction of the first side in the vertical direction, controlling the first vertical wind guide assembly to swing towards the vertical direction of the first side until the third angle is reached, and/or controlling the second vertical wind guide assembly to swing towards the vertical direction of the first side until the fourth angle is reached.

In this technical scheme, through confirming that vertical gentle wind direction is the vertical direction of the first side on the vertical direction, steerable first vertical air guide component and the vertical air guide component of second swing certain angle to one side respectively, make the wind direction of air outlet blow to the oblique top or the oblique below to further reduce user's sense of blowing.

Wherein, use the horizontal plane as the reference surface, vertical angle is the contained angle between vertical air guide component's aviation baffle and the horizontal plane, and vertical angle is positive time, and vertical air guide component is to the top air supply of air conditioner, and when vertical angle was the burden, vertical air guide component was to the bottom air supply of air conditioner, and the absolute value of vertical angle is big more, and then the air outlet is less, and the air output is little promptly.

In the above technical solution, the operation parameter threshold includes a maximum operation frequency of a compressor of the air conditioner and/or a maximum rotation speed of a fan of the air conditioner.

In the technical scheme, the operation parameter threshold value comprises the maximum operation frequency and/or the maximum rotation speed, so that on one hand, the reliability of the compressor and the fan can be further improved, and on the other hand, the energy efficiency of the air conditioner can be improved, especially, the maximum operation frequency and/or the maximum rotation speed are/is reduced when the no-wind-sensation level is high, the air outlet temperature and the air outlet quantity can be further reduced, and the use experience of a user can be further improved.

In the above technical solution, according to the horizontal soft wind direction and the vertical soft wind direction, the adjusting of the operation parameter threshold of the air conditioner specifically includes: and adjusting the maximum operation frequency to the first frequency and/or adjusting the maximum rotating speed to the first rotating speed according to the horizontal direction of the first side.

In the technical scheme, by adjusting the maximum operating frequency to the first frequency and/or adjusting the maximum rotating speed to the first rotating speed, compared with a customized air supply instruction, under the customized air supply instruction, the operating parameter threshold of the air conditioner can be increased according to a user instruction, for example, the temperature difference between a target temperature set by a user and an ambient temperature is large, or the air speed set by the user is high, the operating parameter threshold can be increased.

In the above technical solution, the method further comprises: and determining a somatosensory index corresponding to the customized air supply instruction, and adjusting the maximum operating frequency and/or the maximum rotating speed according to the somatosensory index, wherein the somatosensory index is in negative correlation with the maximum operating frequency, and the somatosensory index is in negative correlation with the maximum rotating speed.

In the technical scheme, the maximum operation frequency and/or the maximum rotation speed are/is adjusted according to the somatosensory index by determining the somatosensory index corresponding to the customized air supply instruction, so that the maximum power output by the air conditioner during operation is limited, and in addition, the energy efficiency of the air conditioner is improved.

In the above technical solution, a plurality of fan assemblies are arranged in the casing of the air conditioner along the height direction of the casing, and the operation method further includes: detecting an operation mode of the air conditioner; determining that the operation mode is a refrigeration mode, and increasing the rotating speed of the fan assembly close to the top of the air conditioner and/or reducing the rotating speed of the fan assembly close to the bottom of the air conditioner; and determining the operation mode as a heating mode, increasing the rotating speed of a fan assembly close to the bottom of the air conditioner, and/or reducing the rotating speed of a fan assembly close to the top of the air conditioner, wherein the fan assembly comprises at least one of an axial flow fan, a cross-flow fan and a centrifugal fan.

In the technical scheme, the rotating speed of the fan assembly close to the top of the air conditioner is increased and/or the rotating speed of the fan assembly close to the bottom of the air conditioner is reduced by determining that the operation mode is the cooling mode, so that cold air can be blown to the top of the air conditioner to reduce the cold air blowing feeling of a user.

In the above technical solution, the method further comprises: responding to a wind speed setting instruction, and analyzing a target wind speed contained in the wind speed setting instruction; and adjusting the swing angle of the first group of wind guide assemblies according to the target wind speed, and/or adjusting the swing angle of the second group of wind guide assemblies.

In the technical scheme, the swing angle of the first group of air guide assemblies is adjusted according to the target wind speed, and/or the swing angle of the second group of air guide assemblies is adjusted, so that the direct blowing prevention experience of a user is further promoted.

Specifically, a user can adjust the rotating speed of a fan of the air conditioner at any time through a wind speed setting instruction, and if the rotating speed of the fan set by the user is large, in order to reduce the blowing feeling of the user, the swing angle of the first group of air guide assemblies and the swing angle of the second group of air guide assemblies are reduced, so that the air output is properly reduced.

An embodiment of the second aspect of the present invention provides an operating device for an air conditioner, where the operating device includes a memory and a processor, and when the processor executes a computer program, the steps of the operating method for an air conditioner as defined in any one of the above embodiments are implemented.

Therefore, the technical effect defined by any one of the technical schemes is achieved, and details are not repeated herein.

A third aspect of the present invention provides a home appliance, including: an operating device of an air conditioner as defined in any one of the above technical solutions.

An aspect of the fourth aspect of the present invention provides a computer-readable storage medium, in which a computer program is stored, and when the computer program is executed, the steps of the operation method of the air conditioner as defined in any one of the above aspects are implemented.

Therefore, the technical effect of the operation method of the air conditioner defined by any one of the above technical solutions is achieved, and details are not repeated herein.

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 flowchart illustrating an operation method of an air conditioner according to an embodiment of the present invention;

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

fig. 3 is a flowchart illustrating an operation method of an air conditioner according to still another embodiment of the present invention;

fig. 4 is a flowchart illustrating an operation method of an air conditioner according to still another embodiment of the present invention;

FIG. 5 is a schematic view illustrating an operation scheme of an air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic view illustrating an operation scheme of an air conditioner according to still another embodiment of the present invention;

fig. 7 is a schematic block diagram illustrating an operation device of an air conditioner according to an embodiment of the present invention;

FIG. 8 illustrates a schematic block diagram of an air conditioner according to an embodiment of the present invention;

figure 9 shows a schematic block diagram of a computer-readable storage medium according to one embodiment of the invention,

the correspondence between the structure and the identifier of the air conditioner shown in fig. 5 and 6 is as follows:

the air conditioner comprises a first group of air guide assemblies A, a first horizontal air guide assembly A1, a first vertical air guide assembly A2, a second group of air guide assemblies B, a second horizontal air guide assembly B1, a second vertical air guide assembly B2, a first fan F1, a second fan F2, an evaporator Z and the air conditioner 100.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in 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.

Referring to fig. 1 to 9, an air conditioner 100 according to some embodiments of the present invention is described, in which a heat exchanger Z, a fan, a vertical air guide assembly M, and a horizontal air guide assembly are sequentially disposed from a rear side to a front side, and the horizontal air guide assembly includes a first horizontal air guide assembly a1 and a second horizontal air guide assembly B1 sequentially disposed from a top to a bottom of the air conditioner.

As shown in fig. 1, 5 and 6, an operation method of an air conditioner 100 according to an embodiment of the present invention includes:

and step S102, responding to the customized air supply instruction, and analyzing the horizontal soft wind direction and the vertical soft wind direction contained in the customized air supply instruction.

And step S104, adjusting the swing angle of the first group of air guide assemblies A.

And step S106, adjusting the swing angle of the second group of air guide assemblies B.

In step S108, the threshold value of the operation parameter of the air conditioner 100 is adjusted.

In the technical scheme, in response to the customized air supply instruction, the horizontal soft air direction and the vertical soft air direction contained in the customized air supply instruction are analyzed, and then the swing angle of the first group of air guide assemblies A is adjusted, and/or the swing angle of the second group of air guide assemblies B is adjusted, so that the non-wind feeling experience of a user is improved, and the reliability and the energy efficiency of the air conditioner 100 are further improved.

The customized air supply instruction means that the air at the air outlet is blown to the user as softly as possible, so that the first group of air guide assemblies a and/or the second group of air guide assemblies B are adjusted to swing towards the second side, that is, the first group of air guide assemblies a and the second group of air guide assemblies B are controlled to supply air to the two sides of the air conditioner 100, so as to provide a soft wind feeling experience for the user.

In addition, under the customized blowing instruction, the operation parameter threshold of the air conditioner 100 may be increased according to the user instruction, for example, the operation parameter threshold may be increased when the temperature difference between the target temperature set by the user and the ambient temperature is large, or the wind speed set by the user is high.

In the above technical solution, the first group of wind guide assemblies a includes a first horizontal wind guide assembly a1, and the second group of wind guide assembly B includes a second horizontal wind guide assembly B1, and according to the horizontal soft wind direction and the vertical soft wind direction, the tilt angle of the first group of wind guide assembly a is adjusted, and/or the tilt angle of the second group of wind guide assembly B is adjusted, specifically including: and determining the horizontal soft wind direction as a first side horizontal direction in the horizontal direction, controlling the first horizontal wind guide assembly A1 to swing towards the first side horizontal direction until the first angle a1 is reached, and/or controlling the second horizontal wind guide assembly B1 to swing towards the first side horizontal direction until the second angle B1 is reached.

In the technical scheme, the first horizontal air guide assembly a1 is controlled to swing to the first side horizontal direction until the first angle a1 is reached, and/or the second horizontal air guide assembly B1 is controlled to swing to the first side horizontal direction until the second angle B1 is reached, that is, the first group air guide assembly a and the second group air guide assembly B are controlled to respectively supply air to two sides of the air conditioner 100, so that a soft wind feeling experience is provided for a user.

In the above technical solution, the first group of air guide assemblies a further includes a first vertical air guide assembly a2, and the second group of air guide assembly B includes a second vertical air guide assembly B2, and according to the horizontal gentle wind direction and the vertical gentle wind direction, the tilt angle of the first group of air guide assembly a is adjusted, and/or the tilt angle of the second group of air guide assembly B is adjusted, which specifically includes: and determining that the vertical soft wind direction is the vertical direction of the first side in the vertical direction, controlling the first vertical wind guide assembly A2 to swing towards the vertical direction of the first side until the third angle m1 is reached, and/or controlling the second vertical wind guide assembly B2 to swing towards the vertical direction of the first side until the fourth angle m2 is reached.

In the technical scheme, the vertical soft wind direction is determined to be the first side vertical direction in the vertical direction, the first vertical air guide component A2 and the second vertical air guide component B2 can be controlled to swing to one side by a certain angle respectively, and the wind at the air outlet is blown obliquely above or obliquely below the wind direction, so that the blowing feeling of a user is further reduced.

In the above technical solution, the operation parameter threshold includes a maximum operation frequency of a compressor of the air conditioner 100, and/or a maximum rotation speed of a fan of the air conditioner 100.

In the technical scheme, the operation parameter threshold value comprises the maximum operation frequency and/or the maximum rotation speed, so that on one hand, the reliability of the compressor and the fan can be further improved, and on the other hand, the energy efficiency of the air conditioner 100 can be improved, especially, when the no-wind-sensation level is high, the maximum operation frequency and/or the maximum rotation speed are/is reduced, the air outlet temperature and the air outlet quantity can be further reduced, and the use experience of a user can be further improved.

In the above technical solution, adjusting the operation parameter threshold of the air conditioner 100 according to the horizontal soft wind direction and the vertical soft wind direction specifically includes: and adjusting the maximum operation frequency to the first frequency and/or adjusting the maximum rotating speed to the first rotating speed according to the horizontal direction of the first side.

In this embodiment, by adjusting the maximum operating frequency to the first frequency and/or adjusting the maximum rotation speed to the first rotation speed, compared to the customized air supply instruction, under the customized air supply instruction, the operating parameter threshold of the air conditioner 100 can be increased according to the user instruction, for example, the temperature difference between the target temperature set by the user and the ambient temperature is large, or the air speed set by the user is high, so that the operating parameter threshold can be increased.

In the above technical solution, the method further comprises: and determining a somatosensory index corresponding to the customized air supply instruction, and adjusting the maximum operating frequency and/or the maximum rotating speed according to the somatosensory index, wherein the somatosensory index is in negative correlation with the maximum operating frequency, and the somatosensory index is in negative correlation with the maximum rotating speed.

In the technical scheme, the maximum operation frequency and/or the maximum rotation speed are/is adjusted according to the somatosensory index by determining the somatosensory index corresponding to the customized air supply instruction, so that the maximum power output by the air conditioner 100 during operation is limited, and in addition, the energy efficiency of the air conditioner 100 is improved.

In the above technical solution, a plurality of fan assemblies are disposed in the casing of the air conditioner 100 along the height direction of the casing, and the operation method further includes: detecting an operation mode of the air conditioner 100; determining the operation mode as a cooling mode, increasing the rotation speed of the first fan F1 near the top of the air conditioner 100, and/or decreasing the rotation speed of the second fan F2 near the bottom of the air conditioner 100; determining the operation mode as a heating mode, increasing a rotation speed of the second fan F2 near a bottom of the air conditioner 100, and/or decreasing a rotation speed of the first fan F1 near a top of the air conditioner 100, wherein the fan assembly includes at least one of an axial flow fan, a cross flow fan, and a centrifugal fan.

In this embodiment, the rotation speed of the first fan F1 near the top of the air conditioner 100 is increased by determining that the operation mode is the cooling mode, and/or the rotation speed of the second fan F2 near the bottom of the air conditioner 100 is decreased, so that cool air can be blown toward the top of the air conditioner 100 to decrease the feeling of blowing of the cool air by the user, and the rotation speed of the second fan F2 near the bottom of the air conditioner 100 is increased by determining that the operation mode is the heating mode, and/or the rotation speed of the first fan F1 near the top of the air conditioner 100 is decreased, so that warm air can be blown toward the bottom of the air conditioner 100 to increase the feeling of blowing of the warm air by the user.

In the above technical solution, the method further comprises: responding to a wind speed setting instruction, and analyzing a target wind speed contained in the wind speed setting instruction; and adjusting the swing angle of the first group of wind guide assemblies A according to the target wind speed, and/or adjusting the swing angle of the second group of wind guide assemblies B.

In the technical scheme, the tilt angle of the first group of air guide assemblies A is adjusted according to the target wind speed, and/or the tilt angle of the second group of air guide assemblies B is adjusted, so that the direct blowing prevention experience of a user is further promoted.

Specifically, the user can adjust the fan rotation speed of the air conditioner 100 at any time through the wind speed setting instruction, and if the fan rotation speed set by the user is large, in order to reduce the blowing feeling of the user, the horizontal swing angle of the first group of air guide assemblies a and the horizontal swing angle of the second group of air guide assemblies B are reduced, so that the air output is properly reduced.

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

step S202, determining that the horizontal soft wind direction is the first lateral horizontal direction in the horizontal direction.

Step S204, the first horizontal air guiding assembly is controlled to swing towards the first side horizontal direction until reaching the first angle.

Step S206, the second horizontal air guiding assembly is controlled to swing towards the first side horizontal direction until reaching the second angle.

Step S208, adjust the maximum operating frequency to the first frequency.

Step S210, adjusting the maximum rotation speed to a first rotation speed.

As shown in fig. 3, an operation method of an air conditioner according to still another embodiment of the present invention includes:

step S302, determining that the vertical soft wind direction is the first side vertical direction in the vertical direction.

Step S304, the first vertical air guiding assembly is controlled to swing towards the first side vertical direction until reaching a third angle.

And S306, controlling the second vertical air guide assembly to swing towards the vertical direction of the first side until the fourth angle is reached.

Step S308, adjust the maximum operating frequency to the first frequency.

Step S310, adjusting the maximum rotation speed to a first rotation speed.

As shown in fig. 4, an operation method of an air conditioner according to still another embodiment of the present invention includes:

step S402, determining a somatosensory index corresponding to the customized air supply instruction.

And S404, adjusting the maximum operation frequency according to the somatosensory index.

And step S406, adjusting the maximum rotating speed according to the somatosensory index.

The specific implementation process is as follows:

and (1.1) receiving a customized air supply instruction.

(1.2) the first horizontal air guiding assembly A1 horizontally swings to the right side (or left side) of the air conditioner 100, and the second horizontal air guiding assembly B1 horizontally swings to the left side (or right side) of the air conditioner 100, wherein the swing angle range is 0-60 degrees.

(1.3) limiting the maximum operation frequency of the compressor to be 20 hz-40 hz, and setting the default wind speed to be 40% -60% of the maximum wind speed.

The specific other implementation process is as follows:

and (2.1) determining the customized air supply instruction to be up, down, left and right.

And (2.2) controlling the first horizontal air guide assembly to swing leftwards until the angle reaches 40-60 degrees, and controlling the second horizontal air guide assembly to swing rightwards until the angle reaches 40-60 degrees.

And (2.3) controlling the first vertical air guide assembly to vertically swing towards the top of the air conditioner until the angle reaches 20-30 degrees, and controlling the second horizontal air guide assembly to vertically swing towards the top of the air conditioner until the angle reaches 20-30 degrees.

(2.4) the operation parameter threshold comprises the maximum operation frequency of a compressor of the air conditioner of 20 hz-40 hz, and/or the maximum rotating speed of a fan of the air conditioner is 40% -60% of the rated rotating speed of the fan, and the air conditioner blows air leftwards.

The specific implementation process is as follows:

and (3.1) determining that the customized air supply instruction is up, right, down and left.

And (3.2) controlling the first horizontal air guide assembly to swing rightwards until the angle reaches 40-60 degrees, and controlling the second horizontal air guide assembly to swing leftwards until the angle reaches 40-60 degrees.

And (3.3) controlling the first vertical air guide assembly to vertically swing towards the top of the air conditioner until the angle reaches 20-30 degrees, and controlling the second horizontal air guide assembly to vertically swing towards the top of the air conditioner until the angle reaches 20-30 degrees.

(3.4) the operation parameter threshold comprises the maximum operation frequency of a compressor of the air conditioner of 20 hz-40 hz, and/or the maximum rotating speed of a fan of the air conditioner is 40% -60% of the rated rotating speed of the fan, and the air conditioner blows air leftwards.

As shown in fig. 7, the embodiment of the present invention discloses an operating device 700 of an air conditioner, the operating device includes a memory and a processor 702, and when the processor 702 executes a computer program, the steps of the operating method of the air conditioner as defined in any one of the embodiments above are implemented. Therefore, the technical effects of any of the above embodiments are achieved, and are not described herein again.

As shown in fig. 8, an embodiment of the present invention discloses an air conditioner 800, which is an operation device 700 of the air conditioner as defined in any one of the above embodiments. Therefore, the technical effects of any of the above embodiments are achieved, and are not described herein again.

As shown in fig. 9, an embodiment of the present invention further provides a computer-readable storage medium 900, where the computer-readable storage medium 900 stores a computer program 902, and when the computer program 902 is executed, the steps of the operation method of the air conditioner defined in any one of the above embodiments are implemented, so that the technical effects of any one of the above embodiments are achieved, and details are not repeated herein.

In this embodiment, the computer program 902, when executed by a processor, implements the steps of:

responding to the customized air supply instruction, and analyzing a horizontal soft wind direction and a vertical soft wind direction contained in the customized air supply instruction; and adjusting the swing angle of the first group of air guide assemblies and/or adjusting the swing angle of the second group of air guide assemblies and/or adjusting the operating parameter threshold of the air conditioner according to the horizontal soft wind direction and the vertical soft wind direction.

In the technical scheme, the customized air supply instruction is responded, the horizontal soft air direction and the vertical soft air direction contained in the customized air supply instruction are analyzed, and then the swing angle of the first group of air guide assemblies is adjusted, and/or the swing angle of the second group of air guide assemblies is adjusted, so that the non-wind experience of a user is improved, and the reliability and the energy efficiency of the air conditioner are further improved.

The customized air supply instruction means that air at the air outlet is blown to a user as softly as possible, so that the first group of air guide assemblies and/or the second group of air guide assemblies are controlled to swing towards the second side, namely, the first group of air guide assemblies and the second group of air guide assemblies are controlled to supply air to two sides of the air conditioner, and soft air feeling experience is provided for the user.

In addition, under the customized air supply instruction, the operation parameter threshold of the air conditioner can be increased according to the user instruction, for example, the operation parameter threshold can be increased when the temperature difference between the target temperature set by the user and the ambient temperature is large or the air speed set by the user is high.

In above-mentioned technical scheme, first group's air guide component includes first horizontal air guide component, and second group's air guide component includes the horizontal air guide component of second, according to horizontal gentle wind direction and vertical gentle wind direction, adjusts first group's air guide component's pivot angle, and/or adjusts second group's air guide component's pivot angle, specifically includes: and determining that the horizontal soft wind direction is the horizontal direction of a first side in the horizontal direction, controlling the first horizontal wind guide assembly to swing towards the horizontal direction of the first side until a first angle is reached, and/or controlling the second horizontal wind guide assembly to swing towards the horizontal direction of the first side until a second angle is reached.

In the technical scheme, the first horizontal air guide assembly is controlled to swing towards the horizontal direction of the first side until the first angle is reached, and/or the second horizontal air guide assembly is controlled to swing towards the horizontal direction of the first side until the second angle is reached, namely the first group of air guide assembly and the second group of air guide assembly are controlled to supply air to two sides of the air conditioner respectively, so that the soft wind feeling experience is provided for a user.

In above-mentioned technical scheme, first group's air guide component still includes first vertical air guide component, and second group's air guide component includes the vertical air guide component of second, according to horizontal gentle wind direction and vertical gentle wind direction, adjusts first group's air guide component's pivot angle, and/or adjusts second group's air guide component's pivot angle, specifically includes: and determining that the vertical soft wind direction is the vertical direction of the first side in the vertical direction, controlling the first vertical wind guide assembly to swing towards the vertical direction of the first side until the third angle is reached, and/or controlling the second vertical wind guide assembly to swing towards the vertical direction of the first side until the fourth angle is reached.

In this technical scheme, through confirming that vertical gentle wind direction is the vertical direction of the first side on the vertical direction, steerable first vertical air guide component and the vertical air guide component of second swing certain angle to one side respectively, make the wind direction of air outlet blow to the oblique top or the oblique below to further reduce user's sense of blowing.

In the above technical solution, the operation parameter threshold includes a maximum operation frequency of a compressor of the air conditioner and/or a maximum rotation speed of a fan of the air conditioner.

In the technical scheme, the operation parameter threshold value comprises the maximum operation frequency and/or the maximum rotation speed, so that on one hand, the reliability of the compressor and the fan can be further improved, and on the other hand, the energy efficiency of the air conditioner can be improved, especially, the maximum operation frequency and/or the maximum rotation speed are/is reduced when the no-wind-sensation level is high, the air outlet temperature and the air outlet quantity can be further reduced, and the use experience of a user can be further improved.

In the above technical solution, according to the horizontal soft wind direction and the vertical soft wind direction, the adjusting of the operation parameter threshold of the air conditioner specifically includes: and adjusting the maximum operation frequency to the first frequency and/or adjusting the maximum rotating speed to the first rotating speed according to the horizontal direction of the first side.

In the technical scheme, by adjusting the maximum operating frequency to the first frequency and/or adjusting the maximum rotating speed to the first rotating speed, compared with a customized air supply instruction, under the customized air supply instruction, the operating parameter threshold of the air conditioner can be increased according to a user instruction, for example, the temperature difference between a target temperature set by a user and an ambient temperature is large, or the air speed set by the user is high, the operating parameter threshold can be increased.

In the above technical solution, the method further comprises: and determining a somatosensory index corresponding to the customized air supply instruction, and adjusting the maximum operating frequency and/or the maximum rotating speed according to the somatosensory index, wherein the somatosensory index is in negative correlation with the maximum operating frequency, and the somatosensory index is in negative correlation with the maximum rotating speed.

In the technical scheme, the maximum operation frequency and/or the maximum rotation speed are/is adjusted according to the somatosensory index by determining the somatosensory index corresponding to the customized air supply instruction, so that the maximum power output by the air conditioner during operation is limited, and in addition, the energy efficiency of the air conditioner is improved.

In the above technical solution, a plurality of fan assemblies are arranged in the casing of the air conditioner along the height direction of the casing, and the operation method further includes: detecting an operation mode of the air conditioner; determining that the operation mode is a refrigeration mode, and increasing the rotating speed of the fan assembly close to the top of the air conditioner and/or reducing the rotating speed of the fan assembly close to the bottom of the air conditioner; and determining the operation mode as a heating mode, increasing the rotating speed of a fan assembly close to the bottom of the air conditioner, and/or reducing the rotating speed of a fan assembly close to the top of the air conditioner, wherein the fan assembly comprises at least one of an axial flow fan, a cross-flow fan and a centrifugal fan.

In the technical scheme, the rotating speed of the fan assembly close to the top of the air conditioner is increased and/or the rotating speed of the fan assembly close to the bottom of the air conditioner is reduced by determining that the operation mode is the cooling mode, so that cold air can be blown to the top of the air conditioner to reduce the cold air blowing feeling of a user.

In the above technical solution, the method further comprises: responding to a wind speed setting instruction, and analyzing a target wind speed contained in the wind speed setting instruction; and adjusting the swing angle of the first group of wind guide assemblies according to the target wind speed, and/or adjusting the swing angle of the second group of wind guide assemblies.

In the technical scheme, the swing angle of the first group of air guide assemblies is adjusted according to the target wind speed, and/or the swing angle of the second group of air guide assemblies is adjusted, so that the direct blowing prevention experience of a user is further promoted.

Specifically, a user can adjust the rotating speed of a fan of the air conditioner at any time through a wind speed setting instruction, and if the rotating speed of the fan set by the user is large, in order to reduce the blowing feeling of the user, the horizontal swing angle of the first group of air guide assemblies and the horizontal swing angle of the second group of air guide assemblies are reduced to properly reduce the air output.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 (11)

1. An operation method of an air conditioner is characterized in that an air outlet is formed in a shell of the air conditioner, a first group of air guide assemblies and a second group of air guide assemblies are sequentially arranged at the air outlet along the height direction of the shell, and the air conditioner control method comprises the following steps:

responding to a customized air supply instruction, and analyzing a horizontal soft wind direction and a vertical soft wind direction contained in the customized air supply instruction;

and adjusting the swing angle of the first group of air guide assemblies and/or adjusting the swing angle of the second group of air guide assemblies and/or adjusting the operating parameter threshold of the air conditioner according to the horizontal soft wind direction and the vertical soft wind direction.

2. The method according to claim 1, wherein the first group of air guide assemblies includes a first horizontal air guide assembly, the second group of air guide assemblies includes a second horizontal air guide assembly, and the adjusting of the tilt angle of the first group of air guide assemblies and/or the adjusting of the tilt angle of the second group of air guide assemblies according to the horizontal and vertical soft wind directions specifically includes:

and determining that the horizontal soft wind direction is the horizontal direction of the first side in the horizontal direction, controlling the first horizontal wind guide assembly to swing towards the horizontal direction of the first side until a first angle is reached, and/or controlling the second horizontal wind guide assembly to swing towards the horizontal direction of the first side until a second angle is reached.

3. The method as claimed in claim 1, wherein the first group of air guiding assemblies further includes a first vertical air guiding assembly, the second group of air guiding assemblies includes a second vertical air guiding assembly, and the adjusting of the tilt angle of the first group of air guiding assemblies and/or the adjusting of the tilt angle of the second group of air guiding assemblies according to the horizontal and vertical soft wind directions specifically includes:

and determining that the vertical soft wind direction is the vertical direction of a first side in the vertical direction, controlling the first vertical wind guide assembly to swing towards the vertical direction of the first side until a third angle is reached, and/or controlling the second vertical wind guide assembly to swing towards the vertical direction of the first side until a fourth angle is reached.

4. The operating method of an air conditioner according to any one of claims 1 to 3,

the operating parameter threshold includes a maximum operating frequency of a compressor of the air conditioner, and/or a maximum rotational speed of a fan of the air conditioner.

5. The operation method of the air conditioner according to claim 4, wherein the adjusting the operation parameter threshold of the air conditioner according to the horizontal soft wind direction and the vertical soft wind direction specifically comprises:

and adjusting the maximum operation frequency to a first frequency and/or adjusting the maximum rotating speed to a first rotating speed according to the horizontal direction of the first side.

6. The operating method of an air conditioner according to claim 4, further comprising:

determining a somatosensory index corresponding to the customized air supply instruction, adjusting the maximum operating frequency and/or adjusting the maximum rotating speed according to the somatosensory index,

the somatosensory index and the maximum operating frequency are in negative correlation, and the somatosensory index and the maximum rotating speed are in negative correlation.

7. The operating method of an air conditioner according to any one of claims 1 to 3, wherein a plurality of fan assemblies are provided in a casing of the air conditioner in a height direction of the casing, the operating method further comprising:

detecting an operation mode of the air conditioner;

determining that the operation mode is a cooling mode, increasing the rotating speed of the fan assembly close to the top of the air conditioner, and/or decreasing the rotating speed of the fan assembly close to the bottom of the air conditioner;

determining the operation mode as a heating mode, increasing the rotation speed of a fan assembly near the bottom of the air conditioner, and/or decreasing the rotation speed of a fan assembly near the top of the air conditioner,

wherein the fan assembly includes at least one of an axial fan, a cross-flow fan, and a centrifugal fan.

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

responding to a wind speed setting instruction, and analyzing a target wind speed contained in the wind speed setting instruction;

and adjusting the swing angle of the first group of wind guide assemblies according to the target wind speed, and/or adjusting the swing angle of the second group of wind guide assemblies.

9. An operating device of an air conditioner, characterized in that the operating device comprises a memory and a processor, and the processor, when executing a computer program, implements the steps of the operating method of the air conditioner according to any one of claims 1 to 8.

10. An air conditioner, comprising:

the operating device of an air conditioner according to claim 9.

11. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which, when executed, implements the steps of the operating method of an air conditioner according to any one of claims 1 to 8.

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