CN112880139A - Control method of air conditioner, air conditioner and computer readable storage medium - Google Patents

Abstract

The invention discloses a control method of an air conditioner, the air conditioner and a computer readable storage medium, wherein the control method of the air conditioner comprises the following steps: acquiring current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner; judging whether the current position information meets a preset adjusting condition or not; if the current position information meets the preset adjusting condition, adjusting the air outlet parameter of the air conditioner so as to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition. The preset adjusting condition represents the situation that the air outlet gap is reduced, and the air outlet quantity within the time meeting the preset adjusting condition is reduced by adjusting the air outlet parameter, so that the air outlet sound does not change along with the change of the size of the air outlet gap, the use experience of a user is enhanced, and the use of the user is facilitated.

Description

Control method of air conditioner, air conditioner and computer readable storage medium

Technical Field

The present invention relates to the field of air conditioners, and in particular, to a method for controlling an air conditioner, and a computer-readable storage medium.

Background

With the progress and development of society, the requirements of people on the quality of life are continuously improved, a comfortable temperature environment becomes a necessary requirement of people, and an air conditioner begins to become one of necessary household appliances.

For the prior art, in the process of the rotation of the air deflector of the existing air conditioner, the size of the air outlet gap formed between the air outlet and the air deflector can be changed continuously. When the air deflector is operated to be close to a closed state, the air outlet gap is reduced, and the air outlet sound is increased; the air deflector moves to the open state again, the air outlet gap is enlarged, and the air outlet sound is reduced accordingly. The phenomenon that the air outlet sound is suddenly changed in the operation process of the air conditioner is caused, and the use of a user is influenced.

Disclosure of Invention

The invention mainly aims to provide a control method of an air conditioner, the air conditioner and a computer readable storage medium, and aims to solve the problem that the use of a user is influenced by the sudden and sudden air outlet sound of the air conditioner.

In order to achieve the above object, the present invention provides a method for controlling an air conditioner, comprising the steps of:

acquiring current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner;

judging whether the current position information meets a preset adjusting condition or not;

if the current position information meets the preset adjusting condition, adjusting the air outlet parameter of the air conditioner so as to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition.

In an embodiment, the current position information includes a current rotation direction and a current rotation angle;

the step of obtaining the current position information of the air guide device relative to the air outlet of the air conditioner comprises the following steps:

acquiring the current rotation direction of an air guide device in the air conditioner and the initial position information of an air deflector in the air guide device;

and determining the current position information of the air deflector, and determining the current rotation angle of the air guide device according to the initial position information and the current position information.

In an embodiment, the preset adjustment condition includes a first preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the first preset adjusting condition.

In an embodiment, the preset adjustment condition includes a first preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is located in a second preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the first preset adjusting condition.

In one embodiment, the air outlet parameters include an indoor fan rotating speed and an air deflector rotating speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the first preset adjusting condition, reducing the rotating speed of the indoor fan and/or increasing the rotating speed of the air deflector.

In an embodiment, the preset adjustment condition includes a second preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a second preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the second preset adjusting condition.

In an embodiment, the preset adjustment condition includes a second preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the second preset adjusting condition.

In one embodiment, the air outlet parameters include an indoor fan rotating speed and an air deflector rotating speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the second preset adjusting condition, restoring the rotating speed of the indoor fan and/or the rotating speed of the air deflector to a preset value.

In order to achieve the above object, the present invention further provides an air conditioner, which includes a memory, a processor, and a control program of the air conditioner stored in the memory and operable on the processor, wherein the control program of the air conditioner, when executed by the processor, implements the control method of the air conditioner as described above.

To achieve the above object, the present invention also provides a computer-readable storage medium storing a control program of an air conditioner, which when executed by a processor, implements the control method of the air conditioner as described above.

According to the control method of the air conditioner, the air conditioner and the computer readable storage medium, the preset adjusting condition for representing that the air deflector in the air outlet device is close to the closed state and the air outlet gap formed between the air deflector and the air outlet is reduced is preset by acquiring the current position information of the air deflector in the air conditioner relative to the air outlet of the air conditioner; comparing the acquired current position information with the preset adjusting condition, and judging whether the current position information meets the preset adjusting condition; if the preset adjusting condition is met, the air outlet parameter of the air conditioner is adjusted to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition. The situation that the air outlet gap becomes small is represented by the preset adjusting condition, the air outlet quantity in the time meeting the preset adjusting condition is reduced by adjusting the air outlet parameter, the air outlet quantity when the air outlet gap becomes small is substantially reduced, and therefore the problem that the air outlet sound is increased along with the reduction of the air outlet gap is avoided, the air outlet sound is not changed along with the change of the size of the air outlet gap, the use experience of a user is enhanced, and the use of the user is facilitated.

Drawings

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

FIG. 2 is a flowchart illustrating a method of controlling an air conditioner according to a first embodiment of the present invention;

FIG. 3 is a flowchart illustrating a second embodiment of a method for controlling an air conditioner according to the present invention;

fig. 4 is a schematic diagram illustrating a positional relationship between the air guiding device and the air outlet according to the control method of the air conditioner of the present invention.

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

Detailed Description

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

The main solution of the embodiment of the invention is as follows: the method comprises the steps that the current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner is obtained, and a preset adjusting condition for representing that an air guide plate in the air outlet device is close to a closed state and an air outlet gap formed between the air guide plate and the air outlet is reduced is preset; comparing the acquired current position information with the preset adjusting condition, and judging whether the current position information meets the preset adjusting condition; if the preset adjusting condition is met, the air outlet parameter of the air conditioner is adjusted to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition. The situation that the air outlet gap becomes small is represented by the preset adjusting condition, the air outlet quantity in the time meeting the preset adjusting condition is reduced by adjusting the air outlet parameter, the air outlet quantity when the air outlet gap becomes small is substantially reduced, and therefore the problem that the air outlet sound is increased along with the reduction of the air outlet gap is avoided, the air outlet sound is not changed along with the change of the size of the air outlet gap, the use experience of a user is enhanced, and the use of the user is facilitated.

As one implementation, the air conditioner may be as shown in fig. 1.

The embodiment of the invention relates to an air conditioner, which comprises: a processor 101, e.g. a CPU, a memory 102, a communication bus 103. Wherein a communication bus 103 is used for enabling the connection communication between these components.

The memory 102 may be a high-speed RAM memory or a non-volatile memory (e.g., a disk memory). As shown in fig. 1, a control program of an air conditioner may be included in a memory 102 as a kind of computer storage medium; and the processor 101 may be configured to call a control program of the air conditioner stored in the memory 102 and perform the following operations:

acquiring current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner;

judging whether the current position information meets a preset adjusting condition or not;

if the current position information meets the preset adjusting condition, adjusting the air outlet parameter of the air conditioner so as to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition.

In an embodiment, the current position information includes a current rotation direction and a current rotation angle;

the step of obtaining the current position information of the air guide device relative to the air outlet of the air conditioner comprises the following steps:

acquiring the current rotation direction of an air guide device in the air conditioner and the initial position information of an air deflector in the air guide device;

and determining the current position information of the air deflector, and determining the current rotation angle of the air guide device according to the initial position information and the current position information.

In an embodiment, the preset adjustment condition includes a first preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the first preset adjusting condition.

In an embodiment, the preset adjustment condition includes a first preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is located in a second preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the first preset adjusting condition.

In one embodiment, the air outlet parameters include an indoor fan rotating speed and an air deflector rotating speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the first preset adjusting condition, reducing the rotating speed of the indoor fan and/or increasing the rotating speed of the air deflector.

In an embodiment, the preset adjustment condition includes a second preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a second preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the second preset adjusting condition.

In an embodiment, the preset adjustment condition includes a second preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the second preset adjusting condition.

In one embodiment, the air outlet parameters include an indoor fan rotating speed and an air deflector rotating speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the second preset adjusting condition, restoring the rotating speed of the indoor fan and/or the rotating speed of the air deflector to a preset value.

According to the scheme, the preset adjusting condition that the air outlet gap formed between the air deflector and the air outlet is reduced when the air deflector in the air outlet device is close to the closed state is preset by acquiring the current position information of the air deflector in the air conditioner relative to the air outlet of the air conditioner; comparing the acquired current position information with the preset adjusting condition, and judging whether the current position information meets the preset adjusting condition; if the preset adjusting condition is met, the air outlet parameter of the air conditioner is adjusted to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition. The situation that the air outlet gap becomes small is represented by the preset adjusting condition, the air outlet quantity in the time meeting the preset adjusting condition is reduced by adjusting the air outlet parameter, the air outlet quantity when the air outlet gap becomes small is substantially reduced, and therefore the problem that the air outlet sound is increased along with the reduction of the air outlet gap is avoided, the air outlet sound is not changed along with the change of the size of the air outlet gap, the use experience of a user is enhanced, and the use of the user is facilitated.

Based on the hardware architecture of the air conditioner, the embodiment of the control method of the air conditioner is provided.

Referring to fig. 2, fig. 2 is a first embodiment of a control method of an air conditioner according to the present invention, the control method of the air conditioner including the steps of:

step S10, acquiring the current position information of the air guide device in the air conditioner relative to the air outlet of the air conditioner;

the control method of the air conditioner is applied to the control center of the air conditioner, and is suitable for adjusting the air outlet parameters of the air conditioner through the control center when the position of the air guiding device of the air conditioner relative to the air outlet is relatively close, namely the air guiding plate in the air guiding device is operated to be close to a closed state, and the air outlet gap formed between the air guiding plate and the air outlet is relatively small, so that the air outlet quantity of the air conditioner when the air outlet gap is relatively small is reduced, and the phenomenon that the air outlet sound is increased due to the fact that a large amount of air is discharged through the relatively small air outlet gap for a. Specifically, current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner is obtained; the air guide device is arranged at an air outlet of the air conditioner and comprises an air guide plate which can rotate relative to the air outlet and is of a strip-shaped structure, the air guide plate comprises an inner guide surface and an outer guide surface, and a part parting line of the inner guide surface is an extension of a molded line of an internal air duct of the air conditioner. Meanwhile, a rotating shaft center is arranged in the air guide device, the air guide plate continuously reciprocates around the rotating shaft center and reciprocates between an upper swing limit angle and a lower swing limit angle, and the rotation of the air guide plate relative to the air outlet is realized; and then the air current that comes from the inside wind channel of air conditioner is discharged through interior guiding surface guide, makes the temperature homogeneity in whole room better, improves the travelling comfort in room.

It should be noted that, the current position information of the air guiding device relative to the air outlet of the air conditioner represents a position relationship formed between the air guiding device and the air outlet, which runs around the center of the rotating shaft. Referring to fig. 4, the air outlet includes an upper edge and a lower edge, and the air guide plate includes an outer edge and an inner edge. When the air deflector is in a closed state, a larger gap is formed between the inner side edge of the air deflector and the lower edge of the air outlet. The position relationship between the air guide device and the air outlet can be represented by a distance, for example, the distance between the outer edge of the air guide plate and the upper edge of the air outlet is smaller, and when the distance between the outer edge of the air guide plate and the upper edge of the air outlet is smaller, the closer the air guide plate is to the closed state, the smaller the air outlet gap formed between the outer edge of the air guide plate and the upper edge of the air outlet is. In addition, the rotation angle representation of the air guide device can also be used, for example, the position of the lower swing limit angle of the air guide plate in reciprocating operation around the center of the rotation shaft is used as the initial position of the air guide plate, the larger the rotation angle of the air guide plate relative to the initial position in the operation process is, the closer the outer edge of the air guide plate and the upper edge of the air outlet is, the closer the air guide plate is to the closed state, and the smaller the air outlet gap formed between the outer edge of the air guide plate and the upper edge of the. Therefore, corresponding to the distance and the angle, the current position information of the air guide device in the air conditioner relative to the air outlet of the air conditioner can be determined in an infrared distance measurement mode, and can also be determined in an angle acquisition mode, and the method is not limited specifically.

Step S20, judging whether the current position information meets the preset adjusting condition;

furthermore, preset adjustment conditions for indicating that the air deflector is close to a closed state and the air outlet gap is reduced are preset, and the preset conditions can exist in a distance mode or an angle mode so as to indicate the relative position between the air guide device and the air outlet and enable the air outlet gap to be small enough to increase the air outlet sound. After the current position information is acquired, the current position information is compared with preset adjusting conditions, whether the current position information meets the preset adjusting conditions or not is judged, and whether the air outlet gap is reduced or not and whether the air outlet sound is increased or not in the reduced degree or not is determined after the air guide device operates.

And step S30, if the current position information meets the preset adjusting condition, adjusting the air outlet parameter of the air conditioner so as to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition.

Furthermore, if it is determined that the current position information satisfies the preset adjustment condition, it indicates that the current size of the air outlet gap increases the air outlet sound after the air guiding device is operated, and at this time, the operation of adjusting the air outlet parameter of the air conditioner is triggered. The air outlet parameters of the air conditioner at least comprise the rotating speed of an indoor fan and the rotating speed of an air deflector; on the one hand, the rotating speed of the indoor fan is adjusted, so that the air output is reduced, the air outlet through a smaller air outlet gap is reduced, and the increase of air outlet sound is avoided. On the other hand, the time that the air outlet gap is in a smaller state is shortened by adjusting the rotating speed of the air deflector, and the whole air outlet quantity of the air outlet gap in the smaller state is reduced by shortening the time, so that the increase of air outlet sound is avoided. Therefore, the air outlet quantity of the air conditioner within the time of meeting the preset adjusting condition is reduced by adjusting the air outlet parameters including the rotating speed of the indoor fan and the rotating speed of the air deflector, and the phenomenon that a large amount of air is exhausted through a small air outlet gap to increase air outlet sound is avoided.

Understandably, along with the operation of the air guide device, the position of the air guide device and the air outlet of the air conditioner can be changed, and the air outlet gap can not be in a small state for a long time. The preset adjusting conditions include conditions that the air guide plate is close to the closed state and the air outlet gap is small, and conditions that the air guide plate is far from the closed state and the air outlet gap is large. When the air guide device is operated to the condition that the current position information of the air guide device relative to the air outlet of the air conditioner does not meet the condition that the air guide plate is close to the closed state and the air outlet gap is reduced, and the condition that the air guide plate is far away from the closed state and the air outlet gap is increased is met, the condition that the air outlet gap is not in the smaller state at present is explained, and the problem that the air outlet sound is increased cannot occur. At this time, if the air outlet parameter of the air conditioner is still running in the adjusted state, the cooling or heating effect of the air conditioner may be affected, and therefore the air outlet parameter needs to be restored to the state before adjustment, so as to ensure the function of the air conditioner while avoiding the sudden change of the air outlet sound.

In the technical scheme provided by the embodiment, a preset adjusting condition for representing that an air guide plate in the air outlet device is close to a closed state and an air outlet gap formed between the air guide plate and the air outlet is reduced is preset by acquiring the current position information of the air guide device in the air conditioner relative to the air outlet of the air conditioner; comparing the acquired current position information with the preset adjusting condition, and judging whether the current position information meets the preset adjusting condition; if the preset adjusting condition is met, the air outlet parameter of the air conditioner is adjusted to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition. The situation that the air outlet gap becomes small is represented by the preset adjusting condition, the air outlet quantity in the time meeting the preset adjusting condition is reduced by adjusting the air outlet parameter, the air outlet quantity when the air outlet gap becomes small is substantially reduced, and therefore the problem that the air outlet sound is increased along with the reduction of the air outlet gap is avoided, the air outlet sound is not changed along with the change of the size of the air outlet gap, the use experience of a user is enhanced, and the use of the user is facilitated.

Further, referring to fig. 3, a second embodiment of the control method of the air conditioner according to the present invention is provided based on the first embodiment of the control method of the air conditioner according to the present invention, wherein in the second embodiment, the current position information includes a current rotation direction and a current rotation angle;

the step of obtaining the current position information of the air guide device relative to the air outlet of the air conditioner comprises the following steps:

step S11, acquiring the current rotation direction of an air guide device in the air conditioner and the initial position information of an air deflector in the air guide device;

step S12, determining current position information of the air deflector, and determining a current rotation angle of the air guide device according to the initial position information and the current position information.

In this embodiment, it is preferable to characterize the current positional relationship of the air guiding device with respect to the air outlet by the rotation angle of the air guiding device. Specifically, the current position information includes a current rotation direction and a current rotation angle, and the current rotation direction is a current rotation direction of the air guiding device relative to the air outlet and includes clockwise rotation and counterclockwise rotation; the current rotation angle is the rotation angle of the air guide device relative to the initial position of the air guide device. The current rotation direction of the air guiding device relative to the air outlet is used as the current rotation direction, and meanwhile, the initial position information of the air guiding plate in the air guiding device is obtained, wherein the initial position information is preferably the lower swing limit angle position of the air guiding plate in reciprocating operation around the center of the rotating shaft. And then, after the air guide device operates, determining the current position information of the current real-time position of the air guide plate, and determining the current rotation angle of the air guide device according to the initial position of the air baffle represented by the initial position information and the current position of the current real-time position of the air baffle represented by the current position information so as to reflect the rotation angle value of the air guide plate after the air guide device operates. The distance between the outer edge of the air deflector and the upper edge of the air outlet is embodied through the size of the angle value, namely the size of an air outlet gap formed between the air guiding device and the air outlet, when the air outlet gap is small, the current position information is judged to meet the preset adjusting condition, the air outlet parameters are adjusted, and the increase of air outlet sound caused by the small air outlet gap is avoided.

In this embodiment, the current position relationship of the air guiding device relative to the air outlet is represented by the rotation angle of the air guiding device, and the rotation angle is generated according to the limit angle position as the initial position. Because the extreme angle position as the initial position has the characteristic of invariable determination, the convenience and the accuracy of the acquisition of the rotating angle are ensured. Meanwhile, current position information is formed by combining the rotating direction, so that the sub-direction adjustment of the air outlet parameters is more accurate according to the current position information.

Further, based on the second embodiment of the control method of an air conditioner of the present invention, a third embodiment of the control method of an air conditioner of the present invention is provided, in the third embodiment, the preset adjustment condition includes a first preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

step S21, determining whether the current rotation direction is a first preset direction, and if the current rotation direction is the first preset direction, determining whether the current rotation angle is within a first preset angle interval, and whether the current rotation angle is gradually increased;

step S22, if the current rotation angle is within a first preset angle range and the current rotation angle gradually increases, it is determined that the current position information satisfies the first preset adjustment condition.

The preset adjustment conditions in this embodiment include conditions that the air deflector is close to a closed state and the air outlet gap is reduced, and these conditions are used as first preset adjustment conditions in the preset adjustment conditions, so that when the relative position relationship between the air guiding device and the air outlet of the air conditioner satisfies the first preset adjustment conditions, the air outlet parameters of the air conditioner are adjusted. Specifically, the first preset adjustment condition includes a first preset direction, and the first preset direction is preferably a counterclockwise direction. After the current rotating direction of the air guide device in the air conditioner is obtained, the current rotating direction is judged, whether the current rotating direction is the first preset direction or not is determined, and whether the air guide device rotates in the anticlockwise direction or not is judged. If the current rotating direction is judged to be the first preset direction, whether the current rotating angle of the air guide device after rotating is located in the first preset angle interval or not is continuously judged, and meanwhile, whether the current rotating angle is gradually increased or not is judged. The first preset angle interval is a preset angle range, preferably between 35 degrees and 50 degrees, and the angle range represents that the distance between the outer edge of the air deflector and the upper edge of the air outlet is small; the smaller distance range is between 25 and 30mm for an angle range between 35 and 50, and increased wind sound may occur.

Further, if the current rotation angle formed between the current position and the initial position of the air guide device after the air guide device is rotated counterclockwise is located in the first preset angle interval, and the current rotation angle is gradually increased, it indicates that after the air guide device is rotated, the air outlet gap between the air deflector and the air outlet is smaller, and the air outlet gap is smaller and smaller along with the gradual increase of the current rotation angle. At this moment, it is determined that the current position information meets a first preset adjusting condition, and the condition for adjusting the air outlet parameters is achieved, so that the increase of air outlet sound caused by the reduction of the air outlet gap is avoided.

Understandably, the air deflector in the air guiding device reciprocates around the center of the rotating shaft, and returns to the lower swing limit angle after rotating to the upper swing limit angle in the anticlockwise direction, namely, the air deflector starts to rotate clockwise. Similarly, the relative position between the air guide device and the air outlet of the air conditioner can also change when the air guide device rotates clockwise, when the position of the air guide plate rotates to a certain position, the air outlet gap between the air guide plate and the air outlet is smaller and smaller, a second preset angle interval is set according to the angle relation between the position and the initial position, and whether the current position information of the air guide device relative to the air outlet of the air conditioner meets the preset adjusting condition when the air guide device rotates clockwise is determined according to the second preset angle interval. Similarly, conditions for representing that the air deflector is close to a closed state and the air outlet gap is reduced are preset for the clockwise operation condition, and the conditions are also used as first preset adjustment conditions in the preset adjustment conditions, so that when the relative position relationship between the clockwise operation of the air guide device and the air outlet of the air conditioner meets the first preset adjustment conditions, the air outlet parameters of the air conditioner are adjusted. Specifically, in the process that the air deflector runs in the clockwise direction, the step of judging whether the current position information meets the preset adjustment condition comprises the following steps:

step S23, determining whether the current rotation direction is a second preset direction, and if the current rotation direction is the second preset direction, determining whether the current rotation angle is within a second preset angle interval, and whether the current rotation angle gradually decreases;

step S24, if the current rotation angle is within a second preset angle range and the current rotation angle gradually decreases, it is determined that the current position information satisfies the first preset adjustment condition.

Further, in order to ensure that the air deflector operates in the clockwise direction, the first preset adjustment condition includes a second preset direction, and the second preset direction is preferably the clockwise direction. After the current rotation direction of the air guide device in the air conditioner is obtained, the current rotation direction is judged, whether the current rotation direction is the second preset direction or not is determined, and whether the air guide device rotates clockwise or not is judged. If the current rotating direction is judged to be the second preset direction, whether the current rotating angle of the air guide device after rotating is located in the second preset angle interval or not is continuously judged, and meanwhile, whether the current rotating angle is gradually reduced or not is judged. The second preset angle interval is an angle range set according to the angle relationship between the initial position and the position where the air outlet gap between the air deflector and the air outlet is smaller and smaller, preferably between 95 degrees and 110 degrees, and the angle range represents that the distance between the inner side edge of the air deflector and the lower edge of the air outlet is smaller; the smaller distance range is between 25 and 30mm for an angle range between 95 and 110, and increased wind sound may occur.

Furthermore, if the current rotation angle formed between the current position and the initial position of the air guiding device after rotation is within the second preset angle range and the current rotation angle is gradually reduced, it indicates that the air outlet gap between the air guiding plate and the air outlet is smaller after the air guiding device rotates, and the air outlet gap is smaller and smaller as the current rotation angle is gradually reduced. At this moment, it is determined that the current position information meets a first preset adjusting condition, and the condition for adjusting the air outlet parameters is achieved, so that the increase of air outlet sound caused by the reduction of the air outlet gap is avoided.

Further, in the process of judging that the air deflector runs clockwise or counterclockwise, if the current position information meets the first preset adjustment condition, the air outlet parameter of the air conditioner needs to be adjusted. The air outlet parameters comprise the rotating speed of the indoor fan and the rotating speed of the air deflector, and the adjustment of the air outlet parameters is the adjustment of any one of the rotating speed of the indoor fan and the rotating speed of the air deflector. In particular, the amount of the solvent to be used,

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and step S31, if the current position information meets the first preset adjusting condition, reducing the rotating speed of the indoor fan and/or increasing the rotating speed of the air deflector.

Understandably, the rotating speed of the indoor fan is related to the air output, and the higher the rotating speed of the indoor fan is, the more the air output is. Therefore, in order to avoid the increase of air outlet sound caused by the fact that a large amount of air is exhausted for a long time through a small air outlet gap, if the current position information is judged to meet the first preset adjusting condition, the rotating speed of the indoor fan is reduced, and the air outlet quantity is reduced. In addition, the rotating speed of the air deflector is related to the time length of the air outlet gap in a smaller state, and the faster the rotating speed of the air deflector is, the shorter the time length of the air outlet gap in the smaller state is. Therefore, in order to avoid the increase of the air outlet sound caused by the fact that a large amount of air outlet passes through the smaller air outlet gap for a long time, the rotation speed of the air deflector can be increased when the current position information is judged to meet the first preset adjusting condition, and the time length that a large amount of air outlet passes through the smaller air outlet gap is shortened. Meanwhile, in order to further improve the effect of reducing the air outlet sound when the air outlet gap is small, a mechanism combining the reduction of the rotating speed of the indoor fan and the increase of the rotating speed of the air deflector can be arranged; if the current position information meets the first preset adjusting condition, the rotating speed of the indoor fan is reduced, and the rotating speed of the air deflector is increased; the whole air output of the air conditioner in the preset adjusting time is reduced by reducing the air output when the air output time is unchanged and reducing the air output when the air output is unchanged, the increase of air output sound caused by the fact that a large amount of air is output for a long time through a small air output gap is avoided, and the air output sound is ensured not to change along with the change of the size of the air output gap.

In this embodiment, respective first preset adjustment conditions are preset for clockwise and counterclockwise operation of the air deflector, and the first preset adjustment conditions serve as trigger conditions for adjusting the air outlet parameters. When the current position information of the air guiding device relative to the air outlet of the air conditioner meets a first preset adjusting condition, the air outlet parameter is adjusted, wherein the adjustment can reduce the rotating speed of the indoor fan in the air outlet parameter, can also increase the rotating speed of the air guiding plate in the air outlet parameter, and can also adjust the air outlet parameter and the air guiding plate simultaneously, so that the increase of air outlet sound caused by that a large amount of air passes through a smaller air outlet gap for a long time is avoided, and the air outlet sound is ensured not to change along with the change of the size of the air

Further, based on the second or third embodiment of the control method of an air conditioner of the present invention, a fourth embodiment of the control method of an air conditioner of the present invention is provided, in the fourth embodiment, the preset adjustment condition includes a second preset adjustment condition, and the step of determining whether the current position information satisfies the preset adjustment condition includes:

step S25, determining whether the current rotation direction is a first preset direction, and if the current rotation direction is the first preset direction, determining whether the current rotation angle is within a second preset angle interval, and whether the current rotation angle is gradually increased;

step S26, if the current rotation angle is within a second preset angle range and the current rotation angle gradually increases, it is determined that the current position information satisfies the second preset adjustment condition.

The preset adjustment condition in this embodiment includes a condition that the air deflector is far from the closed state after approaching the closed state, and the air outlet gap is enlarged after becoming smaller, and this condition is used as a second preset adjustment condition in the preset adjustment condition. When the relative position relationship between the air guide device and the air outlet of the air conditioner meets the second preset adjustment condition, the condition that the air outlet sound is increased disappears, and in order to ensure the normal operation of the air conditioner, the air outlet parameters of the air conditioner need to be restored. Specifically, the second preset adjustment condition includes a first preset direction, and the first preset direction is preferably a counterclockwise direction. After the current rotating direction of the air guide device in the air conditioner is obtained, the current rotating direction is judged, whether the current rotating direction is the first preset direction or not is determined, and whether the air guide device rotates in the anticlockwise direction or not is judged. If the current rotating direction is judged to be the first preset direction, whether the current rotating angle of the air guide device after rotating is located in a second preset angle interval or not is continuously judged, and meanwhile, whether the current rotating angle is gradually increased or not is judged. The second preset angle interval is a preset angle range, preferably between 95 degrees and 110 degrees, and the angle range represents that the distance between the outer edge of the air deflector and the upper edge of the air outlet is gradually increased from a smaller distance through the anticlockwise operation of the air deflector; corresponding to the angle range between 95 degrees and 110 degrees, the distance range is gradually increased from the smaller angle range of 25 mm to 30mm, and the condition that the wind outlet sound is increased disappears.

Further, if the current rotation angle formed between the current position and the initial position of the air guide device after the air guide device is rotated counterclockwise is located in the second preset angle interval, and the current rotation angle is gradually increased, it indicates that after the air guide device is rotated, the air outlet gap between the air guide plate and the air outlet is gradually increased, and the air outlet gap is gradually increased along with the gradual increase of the current rotation angle. At the moment, the condition that the air outlet sound is increased disappears, the current position information is judged to meet the second preset adjusting condition, and the condition for recovering the air outlet parameters is achieved, so that the normal operation of the air conditioner is ensured.

Similarly, when a certain position exists in the process that the air deflector in the air guiding device runs clockwise, the air outlet gap between the air deflector and the air outlet is changed from small to large, and the condition that the air outlet sound is increased disappears. And determining a first preset angle interval according to the angle relation between the position and the initial position, and determining whether the current position information of the air guiding device relative to the air outlet of the air conditioner meets a preset adjusting condition when the air guiding device runs in the clockwise direction according to the first preset angle interval. The method comprises the steps of presetting conditions for representing that an air deflector is far away from a closed state after being close to the closed state and an air outlet gap is enlarged after being reduced aiming at the condition of clockwise operation, and also taking the conditions as second preset adjustment conditions in the preset adjustment conditions so as to restore air outlet parameters of the air conditioner when the relative position relation between the clockwise operation of the air guide device and an air outlet of the air conditioner meets the second preset adjustment conditions. In particular, during the operation of the air deflection plate in the clockwise direction,

the step of judging whether the current position information meets the preset adjusting condition comprises the following steps:

step S27, determining whether the current rotation direction is a second preset direction, and if the current rotation direction is the second preset direction, determining whether the current rotation angle is within a first preset angle interval, and whether the current rotation angle gradually decreases;

step S28, if the current rotation angle is within a first preset angle range and the current rotation angle gradually decreases, it is determined that the current position information satisfies the second preset adjustment condition.

Further, in order to ensure that the air deflector operates in the clockwise direction, the second preset adjustment condition includes a second preset direction, and the second preset direction is preferably the clockwise direction. After the current rotation direction of the air guide device in the air conditioner is obtained, the current rotation direction is judged, whether the current rotation direction is the second preset direction or not is determined, and whether the air guide device rotates clockwise or not is judged. If the current rotating direction is judged to be the second preset direction, whether the current rotating angle of the air guide device after rotating is located in the first preset angle interval or not is continuously judged, and meanwhile, whether the current rotating angle is gradually reduced or not is judged. The first preset angle interval is an angle range set according to the angle relationship between the position where the air outlet gap between the air deflector and the air outlet is changed from small to large and the initial position, preferably between 35 ° and 50 °, and the angle range represents that the distance between the outer edge of the air deflector and the upper edge of the air outlet is gradually increased from a small distance through clockwise operation of the air deflector; the distance range is gradually increased from smaller 25 mm to 30mm corresponding to the angle range between 95 degrees and 110 degrees, and the condition that the wind outlet sound is increased disappears.

Furthermore, if the current rotation angle formed between the current position and the initial position of the air guiding device after clockwise rotation is located within the first preset angle range and the current rotation angle is gradually reduced, it indicates that after the air guiding device rotates, the air outlet gap between the air guiding plate and the air outlet is gradually increased from small to large, and the air outlet gap is gradually increased along with the gradual reduction of the current rotation angle. At the moment, the condition that the air outlet sound is increased disappears, the current position information is judged to meet the second preset adjusting condition, and the condition for recovering the air outlet parameters is achieved, so that the normal operation of the air conditioner is ensured.

Further, in the process of determining that the air deflector operates in the clockwise direction or the counterclockwise direction, if the current position information meets the second preset adjustment condition, it indicates that the condition of the increase of the air outlet sound disappears, and the air outlet parameter of the air conditioner needs to be restored to the parameter value before adjustment. Correspondingly, the air outlet parameters comprise the rotating speed of the indoor fan and the rotating speed of the air deflector, and the adjustment of the air outlet parameters due to the increase of the air outlet sound is the adjustment of any one of the rotating speed of the indoor fan and the rotating speed of the air deflector; after the condition that the air outlet sound is increased disappears, the air outlet parameter is adjusted to recover the rotating speed of the adjusted indoor fan and/or the rotating speed of the air deflector. In particular, the amount of the solvent to be used,

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and step S32, if the current position information meets the second preset adjusting condition, restoring the rotating speed of the indoor fan and/or the rotating speed of the air deflector to a preset value.

Understandably, the adjustment of the air outlet parameters due to the increase of the air outlet sound can be to reduce the rotating speed of the indoor fan, increase the rotating speed of the air deflector, and simultaneously reduce the rotating speed of the indoor fan and increase the rotating speed of the air deflector. Therefore, if the current position information meets the second preset adjusting condition, the condition that the air outlet sound is increased disappears, and when the air outlet parameter of the air conditioner needs to be adjusted again, the air outlet parameter is actually adjusted again to be in a state before the air outlet parameter is adjusted for the first time. And setting the unadjusted air outlet parameter value as a preset value, setting the rotating speed of the indoor fan before the first adjustment as a preset rotating speed value, setting the rotating speed of the air deflector before the first adjustment as a preset rotating speed value, and resetting the rotating speed of the indoor fan and/or the rotating speed of the air deflector after the second adjustment to the corresponding preset values. If the first adjustment is to reduce the rotating speed of the indoor fan, and the second adjustment is to restore the rotating speed of the indoor fan to a corresponding preset value before the adjustment, namely a preset rotating speed value; if the first adjustment is to increase the rotation speed of the air deflector, and the second adjustment is to restore the rotation speed of the air deflector to a corresponding preset value before the adjustment, namely a preset rotation speed value; if the first adjustment is to reduce the rotating speed of the indoor fan and increase the rotating speed of the air deflector, and the second adjustment is to restore the rotating speed of the indoor fan and the rotating speed of the air deflector to corresponding preset values before the adjustment, namely a preset rotating speed value and a preset rotating speed value. The air outlet parameters are restored to the state before adjustment, so that the operation effect of the air conditioner is ensured, and the operation requirement of a user on the air conditioner is met.

In this embodiment, respective second preset adjustment conditions are preset for clockwise and counterclockwise operations of the air deflector, and the second preset adjustment conditions are used as trigger conditions for recovering the adjusted air outlet parameters. When the current position information of the air guiding device relative to the air outlet of the air conditioner meets a second preset adjusting condition, the air outlet parameters are restored, wherein the restoration is different according to different adjusting modes of the air outlet parameters, so that the air outlet parameters are restored to the state before adjustment, the operation effect of the air conditioner is restored, and the operation requirement of a user on the air conditioner is met.

The invention also provides a control device of an air conditioner, which comprises a memory, a processor and a control program of the air conditioner, wherein the control program of the air conditioner is stored in the memory and can run on the processor, and the control program of the air conditioner realizes the control method of the air conditioner according to the embodiment when being executed by the processor.

The invention also provides an air conditioner, which comprises a memory, a processor and a control program of the air conditioner, wherein the control program of the air conditioner is stored in the memory and can run on the processor, and when the control program of the air conditioner is executed by the processor, the control method of the air conditioner is realized.

The present invention also provides a computer-readable storage medium, wherein the computer-readable storage medium stores a control program of an air conditioner, and the control program of the air conditioner implements the control method of the air conditioner according to the above embodiment when executed by a processor.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A control method of an air conditioner is characterized by comprising the following steps:

acquiring current position information of an air guide device in the air conditioner relative to an air outlet of the air conditioner;

judging whether the current position information meets a preset adjusting condition or not;

if the current position information meets the preset adjusting condition, adjusting the air outlet parameter of the air conditioner so as to reduce the air outlet quantity of the air conditioner within the time meeting the preset adjusting condition.

2. The control method of an air conditioner according to claim 1, wherein the current position information includes a current rotation direction and a current rotation angle;

the step of obtaining the current position information of the air guide device relative to the air outlet of the air conditioner comprises the following steps:

acquiring the current rotation direction of an air guide device in the air conditioner and the initial position information of an air deflector in the air guide device;

and determining the current position information of the air deflector, and determining the current rotation angle of the air guide device according to the initial position information and the current position information.

3. The control method of an air conditioner according to claim 2, wherein the preset adjustment condition includes a first preset adjustment condition, and the step of judging whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the first preset adjusting condition.

4. The control method of an air conditioner according to claim 2, wherein the preset adjustment condition includes a first preset adjustment condition, and the step of judging whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is located in a second preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the first preset adjusting condition.

5. The control method of an air conditioner according to claim 3 or 4, wherein the air outlet parameters include an indoor fan rotation speed and an air deflector rotation speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the first preset adjusting condition, reducing the rotating speed of the indoor fan and/or increasing the rotating speed of the air deflector.

6. The control method of an air conditioner according to claim 2, wherein the preset adjustment condition includes a second preset adjustment condition, and the step of judging whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a first preset direction or not, and if the current rotating direction is the first preset direction, judging whether the current rotating angle is located in a second preset angle interval or not and whether the current rotating angle is gradually increased or not;

and if the current rotating angle is within a second preset angle interval and the current rotating angle is gradually increased, judging that the current position information meets the second preset adjusting condition.

7. The control method of an air conditioner according to claim 2, wherein the preset adjustment condition includes a second preset adjustment condition, and the step of judging whether the current position information satisfies the preset adjustment condition includes:

judging whether the current rotating direction is a second preset direction or not, and if the current rotating direction is the second preset direction, judging whether the current rotating angle is located in a first preset angle interval or not and whether the current rotating angle is gradually reduced or not;

and if the current rotating angle is within a first preset angle interval and the current rotating angle is gradually reduced, judging that the current position information meets the second preset adjusting condition.

8. The control method of an air conditioner according to claim 6 or 7, wherein the air outlet parameters include an indoor fan rotation speed and an air deflector rotation speed;

if the current position information meets the preset adjusting condition, the step of adjusting the air outlet parameter of the air conditioner comprises the following steps:

and if the current position information meets the second preset adjusting condition, restoring the rotating speed of the indoor fan and/or the rotating speed of the air deflector to a preset value.

9. An air conditioner, characterized in that the air conditioner comprises a memory, a processor, and a control program of the air conditioner stored in the memory and executable on the processor, the control program of the air conditioner implementing the control method of the air conditioner as claimed in any one of claims 1 to 8 when executed by the processor.

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

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