CN111256343B - Air conditioner, control method thereof and readable storage medium - Google Patents

Abstract

The invention discloses an air conditioner and a control method and a readable storage medium thereof, wherein an air outlet of the air conditioner is provided with a rotatable air guide device, a plurality of groups of air guide strips are arranged in the air guide device, and air through holes are formed in the plurality of groups of air guide strips, and the control method of the air conditioner comprises the following steps: receiving a starting instruction for starting the non-wind-sensing function of the air conditioner, and determining a target wind guide strip in a plurality of groups of wind guide strips according to the starting instruction; controlling the target air guide strip to be in a closed state so as to control the air conditioner to enter a no-wind-sense mode based on the target air guide strip; and in the no-wind-sensation mode, controlling the wind guide device to rotate so as to realize the wind sweeping function of the air conditioner in the no-wind-sensation state based on the target wind guide strip. The rotatable air guide device rotates in the no-wind-sense mode to realize the wind sweeping function in the no-wind-sense state at different distances, so that the air conditioner can refrigerate more uniformly in the no-wind-sense mode, and the comfort of a user is improved.

Description

Air conditioner, control method thereof and readable storage medium

Technical Field

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

Background

With the improvement of living standard of people, the air conditioner becomes a standard distributor in a household. The air conditioner usually comprises a refrigerating function and a heating function, and cold air generated by the operation of the air conditioner can be directly blown to a user after the refrigerating function of the air conditioner is started, so that the health of the user is not facilitated. The existing non-wind-sensation technology is a scheme for solving the problem of a direct-blowing user of the air conditioner, and specially selected wind penetration holes are added on the left and right wind guide strips, so that the non-wind-sensation technology is realized by closing the left and right wind guide strips.

However, the non-wind feeling is realized by closing the left and right wind guide strips, and the problem that the left and right wind sweeping cannot be realized by opening the left and right wind guide strips exists; the cool feeling can be felt only on the front side of the air outlet of the air conditioner, and the hot feeling can be felt on the left side and the right side of the air conditioner; meanwhile, the left and right air guide strips cannot be opened to sweep air from left to right, so that the left and right sides have different refrigerating effects at different distances from the air conditioner, and the refrigerating effect at the position of the left and right sides close to the air conditioner is better than that at the position far away from the air conditioner. Therefore, the problem of uneven refrigeration effect of the air conditioner in the no-wind mode is caused.

Disclosure of Invention

The invention mainly aims to provide an air conditioner, a control method thereof and a readable storage medium, and aims to solve the problem that the refrigeration effect of the air conditioner in the prior art is not uniform in a no-wind-sense mode.

In order to achieve the above object, the present invention provides a control method of an air conditioner, wherein an air outlet of the air conditioner is provided with a rotatable air guide device, a plurality of groups of air guide strips are arranged in the air guide device, and air permeable holes are arranged on the plurality of groups of air guide strips, the control method of the air conditioner comprises the following steps:

receiving a starting instruction for starting the non-wind-sensing function of the air conditioner, and determining a target wind guide strip in a plurality of groups of wind guide strips according to the starting instruction;

controlling the target air guide strip to be in a closed state so as to control the air conditioner to enter a no-wind-sense mode based on the target air guide strip;

and in the no-wind-sensation mode, controlling the wind guide device to rotate so as to realize the wind sweeping function of the air conditioner in the no-wind-sensation state based on the target wind guide strip.

In an embodiment, the plurality of sets of air guiding strips at least include a first air guiding strip arranged in an upper space of the air guiding device, and a second air guiding strip arranged in a lower space of the air guiding device.

In one embodiment, the wind sweeping function of the air conditioner in the no-wind-sensation state comprises a wind sweeping function in an upper no-wind-sensation state, a wind sweeping function in a lower no-wind-sensation state and a wind sweeping function in a full no-wind-sensation state;

if the target air guide strip is a first air guide strip, the wind sweeping function of the upper non-wind-sensing state is realized;

if the target air guide strip is a second air guide strip, the air sweeping function of the lower no-wind-sensation state is realized;

and if the target air guide strips are the first air guide strips and the second air guide strips, the wind sweeping function in the full non-wind sense state is realized.

In an embodiment, the step of controlling the target wind guide strips to be in the closed state includes:

determining whether a wind sweeping function in a non-windless state in the air conditioner is started, wherein the wind sweeping function in the non-windless state is realized based on the swinging operation of any group of wind guide strips;

if the wind sweeping function in the non-no-wind-sense state is started, the wind sweeping function in the non-no-wind-sense state is closed;

and rotating the air guide device to a preset initial position, controlling the target air guide strips to be closed, and controlling other air guide strips in the plurality of groups of air guide strips except the target air guide strips to be opened.

In an embodiment, the step of controlling the wind guiding device to rotate in the non-wind sensing mode includes:

determining whether a wind sweeping instruction for starting a wind sweeping function of the air conditioner is received or not in the no-wind-sense mode;

and if a wind sweeping command for starting the wind sweeping function of the air conditioner is received, controlling the wind guide device to rotate.

In an embodiment, the step of controlling the target wind guide strip to be in the closed state includes:

determining whether a wind sweeping function in the air conditioner in a non-windless state is in an open state;

if the wind sweeping function in the non-wind-sensation state is in an opening state, controlling the target wind guide strips to be closed and controlling other wind guide strips in the plurality of groups of wind guide strips except the target wind guide strips to be opened based on the wind sweeping function in the non-wind-sensation state.

In one embodiment, the step of determining whether the wind sweeping function in the non-no-wind-sensation state in the air conditioner is in an on state comprises the following steps:

and if the wind sweeping function in the non-windless state is in the unopened state, rotating the wind guide device to a preset initial position, controlling the closing of the target wind guide strips, and controlling the opening of other wind guide strips in the plurality of groups of wind guide strips except for the target wind guide strips.

In an embodiment, the step of receiving a start instruction for turning on the no-wind-sensing function of the air conditioner comprises:

receiving a starting instruction for starting the air conditioner, and determining whether a starting instruction for starting the air conditioner without a wind sensing function is detected;

if a starting instruction for starting the no-wind-sensing function of the air conditioner is detected, executing the step of receiving the starting instruction for starting the no-wind-sensing function of the air conditioner;

and if the starting instruction for starting the no-wind-sensing function of the air conditioner is not detected, controlling the air conditioner to operate in an operation mode corresponding to the starting instruction.

In order to achieve the above object, the present invention also provides an air conditioner, comprising:

the air conditioner main body comprises an air guide device;

a memory;

a processor; and

a control program of an 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 set forth in any one of claims 1 to 8 when executed by the processor.

To achieve the above object, the present invention also provides a 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.

The air conditioner and the control method and the readable storage medium thereof provided by the invention have the advantages that the rotatable air guide device for realizing the air sweeping function is arranged at the air outlet of the air conditioner, a plurality of groups of air guide strips for realizing air outlet without far and near distances are arranged in the air guide device, and each group of air guide strips are provided with air through holes. Once a starting instruction for starting the non-wind-sensing function of the air conditioner is received, determining a target wind guide strip from the groups of wind guide strips, and representing the wind guide strip for non-wind-sensing wind outlet; then, the target air guide strip is controlled to be in a closed state, so that the air conditioner enters a no-wind-sense mode through the target air guide strip; and under the no wind sensation mode, the air guide device is controlled to rotate, so that the wind sweeping function of the air conditioner under the no wind sensation state is realized based on the target wind guide strip. Therefore, the air outlet at different distances is realized by arranging the plurality of groups of air guide strips, and the air sweeping function of the air conditioner at different distances in the non-wind-sensing state is realized by the rotation of the rotatable air guide device in the non-wind-sensing mode on the basis, so that the refrigeration of the air conditioner in the non-wind-sensing mode is more uniform, and the comfort of a user is improved.

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 flow chart illustrating a control method of an air conditioner according to a first embodiment of the present invention;

FIG. 3 is a flow chart illustrating a control method of an air conditioner according to a second embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an air outlet frame of the air conditioner according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of an air conditioner in various non-wind-sensing modes and non-wind-sensing modes according to an embodiment 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 air outlet of the air conditioner is provided with a rotatable air guide device for realizing the air sweeping function, a plurality of groups of air guide strips for realizing air outlet without long and short distances are arranged in the air guide device, and each group of air guide strips are provided with air through holes. Once a starting instruction for starting the non-wind-sensing function of the air conditioner is received, determining a target wind guide strip from the groups of wind guide strips, and representing the wind guide strip for non-wind-sensing wind outlet; then, the target air guide strip is controlled to be in a closed state, so that the air conditioner enters a no-wind-sense mode through the target air guide strip; and under the no wind sensation mode, the air guide device is controlled to rotate, so that the wind sweeping function of the air conditioner under the no wind sensation state is realized based on the target wind guide strip. Therefore, the air outlet at different distances is realized by arranging the plurality of groups of air guide strips, and the air sweeping function of the air conditioner at different distances in the non-wind-sensing state is realized by the rotation of the rotatable air guide device in the non-wind-sensing mode on the basis, so that the refrigeration of the air conditioner in the non-wind-sensing mode is more uniform, and the comfort of a user is improved.

The air conditioner control method provided by the embodiment of the invention is mainly applied to the air conditioner.

Referring to fig. 1, fig. 1 is a schematic diagram of an air conditioner hardware architecture according to an embodiment of the present invention. In the embodiment of the present invention, the air conditioner may include a controller MCU (micro controller Unit), a display control MCU, a memory 1, and a memory 2. The controller MCU is used for realizing communication with the outdoor unit, controlling loads such as a motor, an electric auxiliary heater and a sensor, storing necessary communication data and control data into the memory 1, interacting with a user in modes such as an air conditioner body key, a remote controller and WIFI (wireless fidelity), controlling a display load (such as a display screen), and storing necessary interaction data and display data into the memory 2. The memories 1 and 2 may be high-speed RAM memories, or may be non-volatile memories (e.g., disk memories). The memory 1 and the memory 2 may alternatively be storage devices independent of the aforementioned controller MCU and display control MCU. The air conditioner may further include a communication bus for enabling connection communication between the components.

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

With continued reference to fig. 1, the memory 1 of fig. 1, which is a readable storage medium, may include an operating system, a network communication module, and a computer program that is a control program of an air conditioner. In fig. 1, the network communication module may be used to connect to the database, and perform data communication with the database; the controller MCU may call the computer program stored in the memory 1 as a processor, and perform the control method of the air conditioner according to the embodiment of the present invention.

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 of the present invention, an air outlet of the air conditioner is provided with a rotatable air guiding device, a plurality of sets of air guiding strips are arranged in the air guiding device, and the air guiding strips are all provided with air permeable holes, the control method of the air conditioner includes the following steps:

step S10, receiving a starting instruction for starting the no-wind-sensing function of the air conditioner, and determining a target wind guide strip in a plurality of groups of wind guide strips according to the starting instruction;

the control method of the air conditioner is applied to the control center of the air conditioner, is suitable for realizing the wind sweeping function of the air conditioner in the non-wind-sensing state at different distances through the control center, achieves the aim of simultaneously realizing the non-wind-sensing function and the wind sweeping function at different distances, enables the refrigeration effect of the air conditioner in the non-wind-sensing mode to be more uniform, and realizes the multi-wind-sensing combined air supply in a large range. The non-wind-sensing function is an effective scheme for solving a direct blowing user of the air conditioner, and wind-sensing-free air outlet is realized by adding a wind-penetrating hole on a wind guide strip for sweeping wind in the air conditioner and closing the wind guide strip through the wind-penetrating hole. In order to realize the wind sweeping function with different distances in the no-wind-feeling state, the air conditioner is provided with a plurality of rotatable wind guide devices in the segmented space, and each segmented space is internally provided with a wind guide strip.

It should be noted that the air guiding device can be a rotating body air outlet frame, and a plurality of groups of air guiding strips with air penetrating holes are arranged in the rotating body air outlet frame with different segmental spaces; or the device can respectively drive a plurality of groups of air guide strips positioned at different sectional positions to rotate through gears. However, no matter what form the air guide device exists, the multiple groups of air guide strips arranged in the air guide device are provided with air permeable holes so as to realize the non-wind-sensation function of different distances by closing the air guide strips at different positions. The closer the air guide strip is to the upper part of the air guide device, the longer the air supply distance of the non-wind-sensing function is; conversely, the closer the blowing distance of the realized no-wind-feeling function is.

In addition, the air guide device can be arranged to rotate along the left and right directions so as to realize left and right wind sweeping without a wind sensing function under different distances; the wind sweeping device can also be arranged to rotate along the up-down direction so as to realize the up-down wind sweeping without the wind sensing function under different distances. Meanwhile, each group of air guide strips can swing along the left-right direction to realize left-right air sweeping under a common mode without a wind sensation function; the wind sweeping device can also swing along the up-down direction to realize the up-down wind sweeping function under the common mode without the wind sensing function. In the embodiment, the air guiding device is preferably a rotary body air outlet frame, and the rotary body air outlet frame is simply called as the air outlet frame; meanwhile, the rotation direction of the air outlet frame is preferably set to be the left-right direction, and each group of air guide strips in the air outlet frame are preferably set to swing along the left-right direction to realize the left-right wind sweeping function in a non-wind-sensing state or a non-wind-sensing state. Referring to fig. 4, a mounting manner between the air outlet frame and the air conditioner is shown. In addition, the segmented space in the air outlet frame is at least two sections of spaces arranged up and down, the air guide strip arranged in the upper space is a first air guide strip, and the air guide strip arranged in the lower space is a second air guide strip. The opening and closing of the first air guide strip and the second air guide strip are independently controlled through different motors, namely the first air guide strip and the second air guide strip can be opened and closed simultaneously or only can be opened or closed.

Further, the rotation function of the air-out frame in this embodiment is the left-right reciprocating swing of the air-out frame within a certain angle range, a virtual rotation axis is preset as a rotation center, and the rotation function is realized by the left-right reciprocating swing of the air-out frame along the rotation center. In addition, the rotation function of the air outlet frame and the swing operation of the air guide strip are preferably independently driven and controlled, but the driving modes can be both motor driving and stepping motor driving, or one mode is motor driving, and the other mode is stepping motor driving, which is not limited to this.

Furthermore, independent drive control is performed between the rotation function of the air outlet frame and the opening function of the air guide strip, so that four working states are formed between the air outlet frame and the air guide strip. One of the air outlet frames is in a common air outlet state that the first air guide strip and the second air guide strip are both opened; the second air guide strip is a common air sweeping state that the air outlet frame is fixed and any one of the first air guide strip and the second air guide strip swings for operation; the third is that the air-out frame is fixed, and the second air guide strip is the closed no wind sense state of arbitrary one, and its fourth is that the air-out frame rotates, and the second air guide strip is the closed no wind sense state of sweeping the wind function under the no wind sense state of realization for arbitrary one of first air guide strip and second air guide strip. For the non-wind-sensing state and the non-wind-sensing wind sweeping state, the non-wind-sensing state can be divided into a full non-wind-sensing state in which the first wind guide strip and the second wind guide strip are closed due to independent control between the first wind guide strip and the second wind guide strip; the first air guide strip is closed, and the second air guide strip is opened without wind sensation; the first air guide strip is opened, and the second air guide strip is closed and is in a non-wind-sensing state.

Referring to fig. 5, if the user does not have a no-wind demand, the air conditioner operates in a no-wind mode, and both the first wind guide strip and the second wind guide strip in the wind outlet frame are in an open state to supply wind normally to the outside. If the user has the no-wind-sensation requirement, the air conditioner operates in the no-wind-sensation mode, the first wind guide strip and the second wind guide strip are closed through control at the moment, and air is exhausted outwards without wind sensation through the wind penetrating holes in the first wind guide strip and the second wind guide strip, so that the situation that the air is directly blown to the user is avoided. If the user has the non-wind-sensing air outlet requirement close to the air conditioner, the air conditioner operates in a non-wind-sensing mode, the first wind guide strip is controlled to be opened, the second wind guide strip is controlled to be closed, the first wind guide strip supplies air outwards normally, the wind penetrating holes in the second wind guide strip supply air outwards in a non-wind-sensing mode, and the air outlet is prevented from blowing to the user close to the air conditioner. If the user has the no wind of feeling the air-out demand far away from the air conditioner, the air conditioner then above no wind sense mode operation, and control first wind guide strip is closed this moment, and second wind guide strip opens, by the outside no wind of feeling the air-out of the ventilative hole on the first wind guide strip, by the outside normal air supply of second wind guide strip, avoids the air-out to blow directly away user. In addition, if the air conditioner needs to sweep air left and right under the condition of normal air outlet, the air outlet frame is controlled to swing left and right in a reciprocating mode while the first air guide strips and/or the second air guide strips are opened, or the first air guide strips and/or the second air guide strips are directly controlled to swing and operate, so that air can be swept left and right through gaps between the first air guide strips and/or the second air guide strips. If the user has no wind sensation requirement and also has a wind sweeping requirement, after the first wind guide strip and/or the second wind guide strip are controlled to be closed, the wind outlet frame is started to swing back and forth left and right so as to disturb the wind blown out through the wind penetrating holes in the first wind guide strip and/or the second wind guide strip left and right, and left and right wind sweeping and wind outlet in a full wind sensation state, an upper wind sensation state or a lower wind sensation state are realized.

In addition, a triggering device for triggering various functions such as a no-wind-sensing function and a wind sweeping function in the air conditioner is arranged in advance. The triggering device can be a remote controller in communication connection with the air conditioner, an intelligent terminal such as a smart phone and an intelligent bracelet, and can also be directly provided with a touch panel or control keys on the air conditioner. Once the control center receives a starting instruction for starting the non-wind-sensing function triggered by the trigger device, the target wind guide strips in the plurality of groups of wind guide strips are determined. The target air guide strip is used for realizing non-wind-induced air outlet, and can be a first air guide strip, a second air guide strip, or a first air guide strip and a second air guide strip simultaneously. The groups of air guide strips are distinguished through different identifiers, and the identifiers for realizing the non-wind-sensing air guide strips are added into the starting instruction when the non-wind-sensing function is triggered to start. And after receiving the starting instruction, identifying the carried identification and determining the identification type. If the identification type representation starting instruction is used for starting the first air guide strip to realize the non-wind-sensing function of the air conditioner, determining the first air guide strip as a target air guide strip; if the identification type representation starting instruction is used for starting the second air guide strip to realize the non-air-induction function of the air conditioner, determining the second air guide strip as a target air guide strip; and if the identification type representation starting instruction is used for simultaneously starting the first air guide strip and the second air guide strip to realize the non-wind-sense function of the air conditioner, simultaneously determining the first air guide strip and the second air guide strip as target air guide strips.

Understandably, the wind sweeping function in the no-wind-sensation state is implemented on the premise that the control center receives a starting instruction for starting the no-wind-sensation function and starts the no-wind-sensation mode to operate. In order to ensure that the air conditioner receives the start instruction, the control center needs to detect the start instruction. Specifically, the step of receiving a start instruction for turning on the no-wind-sensing function of the air conditioner may include:

step a1, receiving a starting instruction for starting the air conditioner, and determining whether a starting instruction for starting the air conditioner without a wind sensing function is detected;

step a2, if a start instruction for starting the no-wind-sensing function of the air conditioner is detected, executing the step of receiving the start instruction for starting the no-wind-sensing function of the air conditioner;

step a3, if a start instruction for starting the no-wind-sensing function of the air conditioner is not detected, controlling the air conditioner to operate in an operation mode corresponding to the start instruction.

Furthermore, a starting button for starting the air conditioner is arranged in the triggering device, and the control center determines whether a starting instruction for starting the non-wind-sensing function of the air conditioner is detected when receiving a starting instruction for starting the air conditioner triggered based on the starting button. And receiving the starting instruction for starting the no-wind-sense function of the air conditioner once the starting instruction for starting the no-wind-sense function of the air conditioner is detected. And if the starting instruction is not received, controlling the air conditioner to operate in an operation mode corresponding to the starting instruction. The operation mode corresponding to the starting instruction can be a default operation mode or an operation mode of using the air conditioner last time.

It should be noted that, in order to take account of the accuracy of the detection of the starting instruction and the starting efficiency of the air conditioner, a preset time length is preset; after receiving a starting instruction, determining whether the starting instruction is detected within a preset time length; if the starting instruction is not detected, the operation mode corresponding to the starting instruction is used for operation, so that the overlong detection waiting time is avoided. After the air conditioner runs, if a starting instruction for starting the air conditioner without wind sensation is detected, the starting instruction is received, and a target wind guide strip is determined from a plurality of groups of wind guide strips according to the starting instruction, namely the wind guide strip for discharging air in a wind-sensation-free mode is determined, so that the wind-sensation-free function of the air conditioner is realized through the target wind guide strip.

Step S20, controlling the target air guide strip to be in a closed state so as to control the air conditioner to enter a no-wind-sense mode based on the target air guide strip;

further, after a target air guide strip for realizing no-wind-sense air outlet is determined, the target air guide strip is controlled to be closed, and the target air guide strip is in a closed state; and meanwhile, the air conditioner is controlled to enter a non-wind-sensing mode so as to perform non-wind-sensing air outlet through the closed ventilation holes on the target air guide strips.

Understandably, for different operation states of the air guide device, operation parameters with different numerical values are set; the value of the operating parameter may be a default parameter value set by the air conditioner manufacturer, a parameter value set by the user according to the requirement, or a parameter value set by the rotation of the air guide device. The operation parameters include, but are not limited to, air conditioner wind speed, compressor frequency, rotation speed and rotation angle of the air guide device, and the like.

In the embodiment, the operation parameters for realizing the no-wind-sensation function of the wind guide device are used as the no-wind-sensation parameters corresponding to the no-wind-sensation function; the method at least comprises the air conditioner wind speed, the compressor frequency and the like of the air conditioner in a no-wind-sense function mode. Meanwhile, the operation parameters for realizing the non-wind-sensing wind sweeping function of the wind guide device are used as the non-wind-sensing wind sweeping parameters corresponding to the non-wind-sensing wind sweeping function; the air conditioner at least comprises parameters such as air speed of the air conditioner, compressor frequency and rotating speed and rotating angle of the air guide device under the condition that the air conditioner realizes a no-wind-sensing function and a wind sweeping function at the same time. And after the target air guide strip is controlled to be closed, acquiring the non-wind-sensation parameters, and controlling the air conditioner to operate according to the non-wind-sensation parameters so as to enter a non-wind-sensation mode and realize the non-wind-sensation function by discharging air from the wind through holes on the target air guide strip.

And step S30, in the no-wind-sensation mode, controlling the wind guide device to rotate so as to realize the wind sweeping function of the air conditioner in the no-wind-sensation state based on the target wind guide strip.

Furthermore, in the no-wind-sense mode, the no-wind-sense wind sweeping parameters for realizing the wind sweeping function in the no-wind-sense state are obtained, the no-wind-sense parameters of the air conditioner running in the no-wind-sense mode are adjusted to be the no-wind-sense wind sweeping parameters, and the air conditioner is controlled to run in the no-wind-sense wind sweeping parameters. If at least a fan in the air conditioner is controlled to rotate at a rotating speed corresponding to the air speed of the air conditioner, the compressor runs at the frequency of the compressor; and meanwhile, the rotating speed and the rotating angle used for representing the rotating speed and the rotating angle range of the air guide device in the wind sweeping parameters without wind sensation are obtained, and the air guide device is controlled to rotate in the rotating angle at the rotating speed. Therefore, when the target air guide strip is used for closing air outlet to realize no wind sensation, the air outlet airflow is disturbed through the rotation of the air guide device to sweep air outlet, and the wind sweeping function in the state of no wind sensation is realized.

Further, the wind sweeping function in the no-wind-sensation state in the present embodiment includes a wind sweeping function in the no-wind-sensation state, and a wind sweeping function in the no-wind-sensation state corresponding to the no-wind-sensation state, and the no-wind-sensation state at different distances. If the target air guide strip is determined to be the first air guide strip and the second air guide strip at the same time, the air guide device is controlled to rotate, and then the air sweeping function in a full non-wind feeling state can be realized; if the target air guide strip is determined to be the first air guide strip, the air guide device is controlled to rotate, and then the air sweeping function in a no-wind-sense state can be realized; if the target air guide strip is determined to be the second air guide strip, the air guide device is controlled to rotate, and then the air sweeping function in a no-wind-sense state can be achieved.

It should be noted that, a gap exists between the air guiding device and the air conditioner, and during the rotation of the air guiding device, there is an air leakage situation in the gap, which results in the situation of local too high wind speed in the area and causes poor non-wind-sensing functional experience. In order to ensure uniform air outlet, a regulating mechanism for the air speed of the air conditioner is arranged, and the air speed of the air conditioner regulated and controlled by the regulating mechanism is one of the non-wind-sensing wind sweeping parameters; in the process of controlling the rotation of the air guide device, the air speed of the air conditioner regulated and controlled by the regulating and controlling mechanism is obtained to be used as a basis for judging whether the non-wind-sensing wind sweeping is uniform or not. Specifically, the rotation angle of the air guiding device is divided into a plurality of areas, different areas correspond to different fan rotation speeds, and the fan rotation speed corresponding to the area closer to the edges of the left side and the right side is smaller, and the fan rotation speed corresponding to the area closer to the center position is larger. In the process of reciprocating left and right, if the air conditioner swings from the central position to the left edge position and the right edge position, the rotating speed of the fan is regulated and controlled to be gradually reduced according to different areas, so that the air speed of the air conditioner is gradually reduced; and swing to the central point from the left and right edge positions, then regulate and control the fan rotational speed and increase gradually according to different areas to make the air conditioner wind speed increase gradually, with this avoid local wind speed too big, ensure that the air-out is even.

In the technical scheme that this embodiment provided, be provided with the rotatable air ducting that is used for realizing sweeping the wind function at the air outlet of air conditioner, be equipped with again in the air ducting and be used for realizing the multiunit wind-guiding strip that need not go out the wind near far away, all be provided with ventilative hole on every group wind-guiding strip. Once a starting instruction for starting the non-wind-sensing function of the air conditioner is received, determining a target wind guide strip from the groups of wind guide strips, and representing the wind guide strip for non-wind-sensing wind outlet; then the target air guide strip is controlled to be in a closed state, so that the air conditioner enters a non-air-sense mode through the target air guide strip; and under the no wind sensation mode, the air guide device is controlled to rotate, so that the wind sweeping function of the air conditioner under the no wind sensation state is realized based on the target wind guide strip. Therefore, the air outlet at different distances is realized by arranging the plurality of groups of air guide strips, and the air sweeping function of the air conditioner at different distances in the non-wind-sensing state is realized by the rotation of the rotatable air guide device in the non-wind-sensing mode on the basis, so that the refrigeration of the air conditioner in the non-wind-sensing mode is more uniform, and the comfort of a user is improved.

Further, referring to fig. 3, a second embodiment of the control method of an air conditioner according to the present invention is provided based on the first embodiment of the control method of an air conditioner according to the present invention, in the second embodiment, the step of controlling the target wind guide strip to be in the closed state includes:

step S21, determining whether a wind sweeping function in a non-windless state in the air conditioner is started, wherein the wind sweeping function in the non-windless state is realized based on the swinging operation of any group of wind guide strips;

step S22, if the wind sweeping function in the non-no-wind-sensation state is started, the wind sweeping function in the non-no-wind-sensation state is closed;

and step S23, rotating the air guide device to a preset initial position, controlling the closing of the target air guide strips, and controlling the opening of other air guide strips in the plurality of groups of air guide strips except the target air guide strips.

In the embodiment, after a target air guide strip for realizing the non-windiness function is determined from the plurality of groups of air guide strips, whether the wind sweeping function in the non-windiness state of the air conditioner is started is determined; the wind sweeping function in the non-windless state is a common wind sweeping function realized by controlling the wind guide strip to swing and run in the opening state of the wind guide strip. And if the wind sweeping function in the non-windless state in the air conditioner is determined to be started, the wind sweeping function in the non-windless state is closed, so that a plurality of groups of wind guide strips in the wind guide device are all closed. And then the air guide device is rotated to a preset initial position, the air guide strips are respectively controlled at the preset initial position, the target air guide strip is controlled to perform fixed non-wind-sensing air outlet at the preset initial position, and other air guide strips except the target air guide strip are controlled to perform common air outlet or common air sweeping at the preset initial position. It should be noted that the preset initial position may be a position where the air guiding device is located in the center of the air outlet by default and completely faces the space where the air conditioner is located, or a position autonomously set according to the user's requirement.

Furthermore, the closing of a target air guide strip in the air guide device is controlled, so that the air conditioner is provided with a condition for realizing the non-wind-sensing function; and other air guide strips in the plurality of groups of air guide strips except the target air guide strip are controlled to be opened so as to realize common air outlet at the opening position through other air guide strips or realize common air sweeping by swinging and running by taking the opening position as a starting point. In addition, acquiring an operation parameter of the air guide device for realizing the non-wind-sensation function as a non-wind-sensation parameter corresponding to the non-wind-sensation function; and further controlling the air conditioner to operate according to the no-wind-sensation parameter, and entering a no-wind-sensation mode. Then, in the no-wind-sense mode, controlling the wind guide device to rotate; the target air guide strip is driven to rotate by the rotation of the air guide device, and air is swept out through the target air guide strip, so that the air sweeping function in a non-wind-sensing state is realized on the basis of the target air guide strip. Specifically, in the no-wind mode, the step of controlling the rotation of the wind guide device includes:

step b1, determining whether a wind sweeping instruction for starting the wind sweeping function of the air conditioner is received in the no-wind-sense mode;

and b2, if a wind sweeping command for starting the wind sweeping function of the air conditioner is received, controlling the wind guide device to rotate.

Furthermore, a first wind sweeping key for triggering the wind sweeping function in the non-wind-sensation state and a second wind sweeping key for triggering the wind sweeping function in the non-wind-sensation state are arranged in the triggering device. In the no-wind mode, the wind guide strip is in the closed state, so that the instruction triggered by the first wind scanning key cannot realize the swinging operation of the wind guide strip in the open state. In the embodiment, in the no-wind-sensation mode, the wind sweeping function triggered by the first wind sweeping key in the no-wind-sensation state and the wind sweeping function triggered by the second wind sweeping key in the no-wind-sensation state are both used as the wind sweeping function of the air conditioner; meanwhile, the instructions triggered by the first wind sweeping key and the second wind sweeping key are used as wind sweeping instructions for starting the wind sweeping function of the air conditioner; the method is used for representing the requirement that a user has to sweep wind and wind in a no-wind-sense mode.

Further, in the no-wind mode, it is determined whether a wind sweeping command to turn on a wind sweeping function of the air conditioner is received. Whether an instruction for starting the wind sweeping function in the non-wind-sensation state or an instruction for starting the wind sweeping function in the non-wind-sensation state is received, the instruction is determined to be a wind sweeping instruction for starting the wind sweeping function of the air conditioner. Otherwise, if the instruction for opening any one of the two functions is not received, the air-sweeping instruction for opening the air-conditioner air-sweeping function is determined not to be received.

Further, after the fact that a wind sweeping command for starting the wind sweeping function of the air conditioner is received and the fact that a user has the requirement for realizing the wind sweeping function under the wind-sensation-free function is represented, the air guide device is controlled to rotate by taking the preset initial position as a starting point. The rotation of the air guide device drives the air guide strips to rotate, and the air is swept and exhausted under the non-wind-sensing function. If a wind sweeping instruction for starting the wind sweeping function of the air conditioner is not received, the no-wind-sense mode representing the current operation of the air conditioner meets the requirements of a user, the air conditioner is controlled to continuously operate in the no-wind-sense mode, and the no-wind-sense function of the air conditioner is realized through the target wind guide strip.

In the technical scheme provided by this embodiment, if the wind sweeping function in the air conditioner is turned on in a non-windless state, the function is turned off, and after the wind guide device is rotated to a preset initial position, the target wind guide strip is controlled to be closed, so that the windless function is realized at the preset initial position based on the target wind guide strip. And meanwhile, when a wind sweeping instruction is received, the wind guide device is controlled to rotate, so that a preset initial position is used as a starting point, and the wind sweeping function in a non-wind sense state is realized. The non-wind-sensing function and the wind sweeping function are simultaneously realized by taking the preset initial position as the starting point, so that the experience of a user on the non-wind-sensing function and the wind sweeping function is stronger.

Further, a third embodiment of the control method of an air conditioner according to the present invention is provided based on the first embodiment of the control method of an air conditioner according to the present invention, and in the third embodiment, the step of controlling the target wind guide strip to be in the closed state includes:

step S24, determining whether the wind sweeping function in the air conditioner under the non-windless state is in an opening state;

step S25, if the wind sweeping function in the non-no-wind-sensation state is in an open state, controlling the target wind guide strips to be closed and controlling other wind guide strips in the plurality of groups of wind guide strips except the target wind guide strips to be opened based on the wind sweeping function in the non-no-wind-sensation state;

step S26, if the wind sweeping function in the non-windless state is in an unopened state, rotating the wind guiding device to a preset initial position, controlling the closing of the target wind guiding strips, and controlling the opening of other wind guiding strips in the plurality of groups of wind guiding strips except for the target wind guiding strips.

It is understood that the starting instruction for turning on the no-wind function of the air conditioner may be received during the operation of the air conditioner, that is, the starting instruction for turning on the no-wind function of the air conditioner may be received when the air conditioner is operated in a certain mode. The current operation mode of the air conditioner may be a common air outlet mode, namely an air outlet mode in which a plurality of groups of air guide strips are opened at a certain angle; the wind sweeping mode can also be a common wind sweeping mode, namely a wind sweeping mode in which a plurality of groups of wind guide strips are opened and any one group of wind guide strips operates in a swinging mode. The common wind sweeping mode is a wind sweeping function in a non-windless state, which is realized by controlling a certain group of wind guide strips to swing and run under the opening state of the plurality of groups of wind guide strips, and the wind sweeping requirement of a user is explained. In order to continuously meet the wind sweeping requirement of a user, after a target wind guide strip is determined from the plurality of groups of wind guide strips, whether the wind sweeping function in a non-windless state is in an open state is further determined.

And if the wind sweeping function in the non-wind-sensation state is determined to be in the opening state, controlling the target wind guide strips to be closed and controlling other wind guide strips in the plurality of groups of wind guide strips except the target wind guide strips to be opened on the basis of the wind sweeping function in the non-wind-sensation state. If the current position of the air guide device is not at the preset initial position, the air guide device realizes the air sweeping function in a non-windless state at a certain angle; and closing the target air guide strip at the current position, and opening other air guide strips. And taking the current position as the initial position of the rotation of the air guide device to drive the target air guide strip to realize the air sweeping and air discharging in the non-wind-sensing mode. In addition, the common no-wind mode can be realized by opening the wind guide strips and rotating the wind guide device besides sweeping wind by swinging the wind guide strips. In this case, when the start instruction is received, the position to which the air guide device rotates is used as the starting position of the rotation of the air guide device, and the target air guide strip which is closed is driven by the rotation to realize the air sweeping and air discharging in the non-wind sensing mode.

Further, if it is determined that the wind sweeping function in the non-no-wind-sensation state is in the non-on state, it indicates that the user does not have the wind sweeping requirement before. At the moment, after a target air guide strip for realizing the non-wind-sensing function is determined from the plurality of groups of air guide strips, the air guide device is rotated to a preset initial position; and simultaneously closing the target air guide strips and opening other air guide strips in the plurality of groups of air guide strips except the target air guide strips so as to realize the operation in a non-wind-sense mode through the target air guide strips at the preset initial position.

In the technical scheme provided by this embodiment, if the wind sweeping function in the air conditioner is in the on state in the non-windless state, on the basis of the function, the target wind guide strip is controlled to be closed, and the other wind guide strips are controlled to be opened. And then the wind guiding device is controlled to rotate, so that the wind sweeping function in the non-windless state is directly switched to the wind sweeping function in the windless state, and the speed of the air conditioner for realizing the windless function and the wind sweeping function at the same time is increased.

The present invention also provides an air conditioner, comprising:

the air conditioner main body comprises an air guide device;

a memory;

a processor; and

a control program of an 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 described in the above embodiments when executed by the processor.

The present invention also provides a 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 in the above embodiments.

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.

Claims (7)

1. A control method of an air conditioner is characterized in that a rotatable air guide device is arranged at an air outlet of the air conditioner, a plurality of groups of air guide strips are arranged in the air guide device, air through holes are formed in the plurality of groups of air guide strips, and the control method of the air conditioner comprises the following steps:

receiving a starting instruction for starting the non-wind-sensing function of the air conditioner, and determining a target wind guide strip in a plurality of groups of wind guide strips according to the starting instruction;

controlling the target air guide strip to be in a closed state so as to control the air conditioner to enter a no-wind-sense mode based on the target air guide strip;

in the no-wind-sensation mode, controlling the wind guide device to rotate so as to realize a wind sweeping function of the air conditioner in a no-wind-sensation state based on the target wind guide strip;

the step of controlling the target wind guide strip to be in a closed state comprises the following steps:

determining whether a wind sweeping function in the air conditioner in a non-windless state is in an open state;

if the wind sweeping function in the non-wind-sensation state is in an opening state, and if the current position of the wind guide device is not at a preset initial position, controlling the target wind guide strips to be closed and controlling other wind guide strips in the plurality of groups of wind guide strips except the target wind guide strips to be opened based on the wind sweeping function in the non-wind-sensation state at the current position of the wind guide device, and taking the current position as the initial position of the wind guide device to drive the target wind guide strip air conditioner to realize the wind sweeping function in the non-wind-sensation mode;

if the wind sweeping function in the non-windless state is in an unopened state, rotating the wind guide device to a preset initial position, controlling the target wind guide strips to be closed, and controlling other wind guide strips in the plurality of groups of wind guide strips except for the target wind guide strips to be opened;

in the no-wind mode, the step of controlling the rotation of the wind guide device includes:

in the no-wind-sensation mode, determining whether a wind sweeping instruction for starting a wind sweeping function of the air conditioner is received, wherein a first wind sweeping key for triggering the wind sweeping function in a non-no-wind-sensation state and a second wind sweeping key for triggering the wind sweeping function in the no-wind-sensation state are arranged in a trigger device of the air conditioner, and in the no-wind-sensation mode, instructions triggered by the first wind sweeping key and the second wind sweeping key are used as the wind sweeping instruction for starting the wind sweeping function of the air conditioner;

and if a wind sweeping command for starting the wind sweeping function of the air conditioner is received, controlling the wind guide device to rotate.

2. The method of controlling an air conditioner according to claim 1, wherein the plurality of sets of air guide strips include at least a first air guide strip provided in an upper space of the air guide device and a second air guide strip provided in a lower space of the air guide device.

3. The control method of an air conditioner according to claim 2, wherein the wind sweeping function in the no-wind-feeling state of the air conditioner includes a wind sweeping function in an upper no-wind-feeling state, a wind sweeping function in a lower no-wind-feeling state, and a wind sweeping function in a full no-wind-feeling state;

if the target air guide strip is a first air guide strip, the wind sweeping function of the upper non-wind-sensing state is realized;

if the target air guide strip is a second air guide strip, the air sweeping function of the lower no-wind-sensation state is realized;

and if the target air guide strips are the first air guide strips and the second air guide strips, the air sweeping function in the full no-wind-sensation state is realized.

4. The method of controlling an air conditioner according to claim 1, wherein the step of controlling the target air guide strip to be in the closed state includes:

determining whether a wind sweeping function in a non-windless state in the air conditioner is started, wherein the wind sweeping function in the non-windless state is realized based on the swinging operation of any group of wind guide strips;

if the wind sweeping function in the non-no-wind-sense state is started, the wind sweeping function in the non-no-wind-sense state is closed;

and rotating the air guide device to a preset initial position, controlling the target air guide strips to be closed, and controlling other air guide strips in the plurality of groups of air guide strips except the target air guide strips to be opened.

5. The control method of an air conditioner according to any one of claims 1 to 4, wherein the step of receiving a start instruction to turn on a no-wind function of the air conditioner is preceded by:

receiving a starting instruction for starting the air conditioner, and determining whether a starting instruction for starting the air conditioner without a wind sensing function is detected;

if a starting instruction for starting the no-wind-sensing function of the air conditioner is detected, executing the step of receiving the starting instruction for starting the no-wind-sensing function of the air conditioner;

and if the starting instruction for starting the no-wind-sensing function of the air conditioner is not detected, controlling the air conditioner to operate in an operation mode corresponding to the starting instruction.

6. An air conditioner, characterized in that the air conditioner comprises:

the air conditioner main body comprises an air guide device;

a memory;

a processor; and

a control program of an 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 set forth in any one of claims 1 to 5 when executed by the processor.

7. A readable storage medium storing a control program of an air conditioner, the control program of the air conditioner implementing a control method of the air conditioner according to any one of claims 1 to 5 when executed by a processor.

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