CN110608506A - Air deflector multidirectional swinging control method and device and air conditioner - Google Patents

Abstract

The invention provides a control method and a control device for multidirectional swinging of an air deflector and an air conditioner, which relate to the technical field of air conditioners and comprise the following steps: when receiving wind direction self-defining mode opening signal, get into wind direction self-defining mode, wind direction self-defining mode includes: setting a plurality of preset positions in the swing interval of the air deflector; the plurality of preset positions are all positioned in the air deflector swinging interval; the air deflector is suitable for swinging between any two preset positions, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals; and when the subinterval signal sent by the remote control device is received, controlling the air deflector to swing in the corresponding swing subinterval according to the received subinterval signal. The multi-directional swinging control method, the control device and the air conditioner of the air deflector have wide control range of the swinging direction, are suitable for the customer to define and set the wind direction of the swinging wind according to the scene, solve the problems of direct blowing of the outlet wind and slow temperature balance, and are more humanized.

Description

Air deflector multidirectional swinging control method and device and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a control method and a control device for multidirectional swinging of an air deflector and an air conditioner.

Background

The existing air conditioner has two modes of wind sweeping and freezing in the control of the wind direction, and a wind sweeping button is arranged on a remote control device. When receiving a wind sweeping signal sent by the remote control device, the air conditioner can control the air deflector to perform full swing and sweep back and forth, so that the wind outlet direction is controlled by full swing; if the user presses the wind sweeping button again to close the wind sweeping function, the air deflector is fixed at the preset position. According to the two wind direction control modes, the wind directions can be selected in all directions or one direction, the selection of wind direction control is few, the humanization is insufficient, various wind direction control cannot be selected, and various requirements of different scenes of a user cannot be met.

Disclosure of Invention

The invention solves the problems that the existing air conditioner has few wind direction control options and insufficient humanization, can not select various wind direction control, and can not meet various requirements of different scenes of a user.

In order to solve the above problems, the present invention provides a method for controlling multi-directional swinging of an air deflector, comprising:

when a wind direction self-defining mode starting signal is received, entering a wind direction self-defining mode, wherein the wind direction self-defining mode comprises the following steps: setting a plurality of preset positions in the swing interval of the air deflector; the preset positions are all located in the air deflector swinging interval; the air deflector is suitable for swinging between any two preset positions, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals;

and when receiving a subinterval signal sent by the remote control device, controlling the air deflector to swing in the corresponding swing subinterval according to the received subinterval signal.

The swing interval is divided into a plurality of swing sub-intervals, the swing sub-intervals have various choices, the control range of the swing direction is wide, the method is suitable for the customer to define and set the wind direction of the swing according to the scene, the problems of wind outlet direct blowing and slow temperature balance are well solved, and the method is humanized.

Optionally, the first preset position to the last preset position are sequentially arranged at intervals from one end to the other end in the air deflector swinging interval, and the first preset position and the last preset position are respectively located at two ends of the air deflector swinging interval; the swing sub-interval divides the swing interval into a plurality of sub-intervals, and the swing range of the air deflector can cover the whole swing interval.

Optionally, the plurality of preset positions include a preset position P1, a preset position P2, a preset position P3, a preset position P4 and a preset position P5;

the wobble subinterval includes: a first swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P2;

a second swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P3;

a third swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P4;

a fourth swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P5;

a fifth swing subinterval comprising a swing subinterval between the preset position P2 to the preset position P3;

a sixth swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P4;

a seventh swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P5;

an eighth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P4;

a ninth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P5;

a tenth swing sub-interval comprising a swing sub-interval between the preset position P4 to the preset position P5.

The swing interval is divided into 5 swing sub-intervals and 10 swing sub-intervals, so that the multidirectional selectivity of the air outlet direction can be ensured, and the selection complexity of a user caused by too many intervals can be avoided.

Optionally, when a wind direction self-defining mode exit signal is received, the air conditioner is powered off, an air conditioner freeze signal is received or an air conditioner full-scanning signal is received, the wind direction self-defining mode exits, the exit of the wind direction self-defining mode is effectively controlled, and the control logic of the wind direction self-defining mode is improved.

Optionally, when the wind direction self-defining mode is operated, recording a latest received sub-interval signal and a corresponding swing sub-interval thereof, and when the wind direction self-defining mode exits and reenters, controlling the air deflector to swing in the recorded swing sub-interval until a new sub-interval signal is received; when the user restarts, the swing interval of the air deflector does not need to be set every time, and the use convenience of the user is improved.

Optionally, recording a subinterval signal newly received by the current operation mode in different operation modes, and when the operation mode is changed and the subinterval signal is recorded in the changed operation mode, swinging the air deflector according to a swinging subinterval corresponding to the subinterval signal recorded in the changed operation mode; the wind direction control among the operation modes is not influenced, the matching degree of the wind direction and the operation modes is improved, the operation wind direction which is most required by a user is recorded in each operation mode, and the setting process of the user is simplified.

Optionally, the wind direction self-defined mode starting signal and the subinterval signal are sent out through a remote control device, the remote control device is an air conditioner remote controller or an intelligent terminal, operation is more convenient, and better control can be performed on an air conditioner with more functions.

The invention also provides a multidirectional swinging control device for the air deflector, which comprises:

the receiving unit is used for receiving the wind direction self-defined mode starting signal and the subinterval signal and transmitting the signals to the control unit;

the control unit controls the air conditioner to enter a wind direction self-defining mode according to the received wind direction self-defining mode starting signal;

the control unit is also used for setting a plurality of preset positions P1 and P2 … Pn in the swing interval of the air deflector, wherein n is more than or equal to 3; the multiple preset positions are all located in the air deflector swinging interval, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals;

and the control unit also controls the air deflector to swing in the corresponding swing sub-interval according to the received sub-interval signal.

Optionally, the control device further includes a remote control device, and the remote control device is adapted to send the wind direction self-defined mode starting signal and the subinterval signal to the receiving device.

The control device provided by the invention does not need to add an additional device, has a simple structure, can control the multidirectional swinging of the air deflector of the air conditioner, and has low improvement cost.

The invention also provides a computer readable storage medium, which stores a computer program, and when the computer program is read and executed by a processor, the method for controlling the multidirectional swinging of the air deflector is realized.

The invention also provides an air conditioner, which comprises a computer readable storage medium and a processor, wherein the computer readable storage medium is used for storing a computer program, and the computer program is read by the processor and runs to realize the multi-directional swinging control method of the air deflector.

Optionally, the air conditioner further includes a remote control device, and the remote control device is adapted to send the wind direction self-defined mode starting signal and the subinterval signal to the receiving device.

The beneficial effects of the computer-readable storage medium and the air conditioner compared with the prior art are the same as the beneficial effects of the air deflector multidirectional swinging control device compared with the prior art, and are not described herein again.

Drawings

Fig. 1 is a flowchart of a multidirectional swing control method for an air deflector according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a wobble subinterval according to an embodiment of the invention.

Detailed Description

The swing control of the air deflector of the existing air conditioner only has two modes: a wind sweeping mode and a freeze frame mode. Taking a wall-mounted air conditioner as an example, the wind sweeping mode refers to that the wind deflector moves back and forth in the swinging area, and swings between the upper end and the lower end of the swinging area when moving back and forth; the stop-motion mode refers to that the air deflector is fixed at a stop-motion position selected by a user, so that the air conditioner blows air to blow directly towards a certain set direction.

The air conditioner can output air in a larger area by the swing control and the wind sweeping mode of the two air deflectors, the environment where the air conditioner is located can well reach the balance of temperature, but the air conditioner directly blows people in the wind sweeping process, and particularly when a user sleeps at night, the user cannot start the wind sweeping mode due to the direct blowing and only can start the direct blowing mode. The freeze frame mode makes the air conditioner blow directly according to a certain direction, through the selection of user to the position of blowing, can be very fast make the temperature in certain region of environment descends fast, but the freeze frame mode can't be fast reach better equilibrium with ambient temperature to directly blow and to make the air conditioner to ambient temperature's detection and the temperature that the human body felt the deviation appears, make the air conditioner to the control of temperature not reach optimal control.

Based on the problems of two air deflector swinging controls, the invention provides an air deflector multidirectional swinging control method, a control device and an air conditioner, which can avoid direct blowing of people, can effectively make the air deflector swing to a certain degree, and can better achieve temperature balance in the environment.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

The embodiment provides a method for controlling multidirectional swinging of an air deflector, which is shown in fig. 1 and comprises the following steps:

and step S1, when the opening signal of the wind direction self-defining mode is received, the air conditioner enters the wind direction self-defining mode.

In the existing air conditioner, the remote control device only has the functions of wind sweeping and freezing for controlling the wind direction of the air deflector, in the embodiment, a wind direction self-defining case is added on the remote control device, and a wind direction self-defining mode is set in a control unit of the air conditioner for a user to select.

Specifically, the wind direction customization mode comprises the following steps: a plurality of preset positions P1 to Pn are set in an air deflector swinging interval (taking a wall-mounted air conditioner as an example, an air deflector swinging space refers to an interval range from the lowest end to the uppermost end of an air deflector swinging), wherein n is more than or equal to 2, and all the preset positions P1 to Pn are positioned in the air deflector swinging interval.

The preset positions divide the swing interval into a plurality of sub-intervals, one sub-interval is arranged between every two preset positions, and the air deflector can swing in the swing sub-interval between any two preset positions.

Preferably, the preset positions P1 to Pn are sequentially arranged at intervals from one end to the other end in the swing interval of the air deflector. Taking a wall-mounted air conditioner as an example, the swing direction of the wall-mounted air conditioner is up and down swing, the cross section of the swing interval is similar to a fan shape, and the preset position P1 is located at the uppermost end or the lowermost end of the swing interval. Taking the preset position P1 at the uppermost end of the swing interval as an example, the preset position Pn is at the lowermost end of the swing interval, and the preset position P1, the preset position P2 to the preset position Pn are sequentially arranged at intervals from top to bottom in the swing interval, so as to divide the swing interval into a plurality of small intervals, and a swing sub-interval is formed between every two swing positions.

It should be noted that, the above embodiment is only illustrated by the wall-mounted air conditioner, and when the air deflector swings left and right similarly to the cabinet, the preset position P1 and the preset position Pn are respectively located at the leftmost end and the rightmost end of the swing interval. For different types of air conditioners, the preset position P1 and the preset position Pn are respectively located at two ends of the air deflector swing interval.

Specifically, different swing subintervals correspond to different subinterval signals, and after a user selects a suitable swing subinterval through the remote control device, the remote control device sends the corresponding subinterval signal to the control unit.

And step S2, receiving the subinterval signals sent by the remote control device, specifically, the different subinterval signals correspond to different swing subintervals, the user can select the required swing subinterval through the remote control, and the remote control sends the subinterval signal corresponding to the user-selected swing subinterval to the air conditioner control unit.

Preferably, the remote controller can be a mobile phone, and a user can select a swing subinterval needing the air deflector to swing through the intelligent terminal, specifically select and control through the APP; when a fan runs in the air conditioner, a subinterval signal sent by the intelligent terminal is received, the WIFI module transmits the signal to the control unit, and the control unit swings according to a preset range.

And step S3, controlling the air deflector to swing in the swing sub-interval corresponding to the received sub-interval signal according to the received sub-interval signal.

The embodiment divides the swing interval into a plurality of swing sub-intervals, the swing sub-intervals have various choices, the control range of the swing direction is wide, the swing device is suitable for a client to set the wind direction of the swing according to the scene definition, the problems of wind outlet direct blowing and slow temperature balance are well solved, and the swing device is humanized.

Preferably, referring to fig. 2, the swing interval of the up-down wind sweeping in fig. 2 is taken as an example, and the left-right wind sweeping or the wind sweeping in other directions are similar to the swing subintervals described in the present embodiment. Specifically, when n is 5, the preset position P1 is located at the uppermost end of the swing interval, the preset position Pn is located at the lowermost end of the swing interval, and the preset position P1, the preset position P2 to the preset position P5 are sequentially arranged at intervals from top to bottom in the swing interval. The preset position divides the swing interval into four small sector intervals and divides the swing interval into ten swing subintervals, including:

a first swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P2;

a second swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P3;

a third swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P4;

a fourth swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P5;

a fifth swing subinterval comprising a swing subinterval between the preset position P2 to the preset position P3;

a sixth swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P4;

a seventh swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P5;

an eighth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P4;

a ninth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P5;

a tenth swing sub-interval comprising a swing sub-interval between the preset position P4 to the preset position P5.

The air deflector can swing in any swing sub-interval, specifically, a selection function of ten swing sub-intervals can be set on the remote control device, and a user selects a swing sub-interval which is not directly blown and has a large air outlet range according to the requirement of the environment.

It should be noted that the number of the preset positions in the embodiment is preferably 4 to 6, and preferably 5, and when the number of the preset positions is small, the number of the divided sub-intervals is small, so that the requirements of the user on various wind swing intervals cannot be met; when the preset positions are more, the number of the divided sub-intervals is more, and the complexity of selecting the swing sub-interval by the user is increased, for example, when the preset positions are 7, the number of the swing sub-intervals is 21, and the number of the swing sub-intervals is too large, so that the user cannot accurately acquire the required swing sub-interval.

When the air deflector swings in the eighth swing sub-interval and causes direct blowing to a user, the user can select the first swing sub-interval, the second swing sub-interval, the fifth swing sub-interval or the tenth swing sub-interval, so that cold air or hot air of the air conditioner is effectively prevented from being directly blown, and the air outlet direction at a certain angle is ensured. Preferably, the air conditioner can recommend or automatically select the second swing subinterval in an intelligent mode, and the maximum air outlet range is ensured on the basis of direct blowing prevention.

On the basis of the embodiment, when the control unit receives a wind direction self-defining mode exit signal, the air conditioner is powered off, and an air conditioner freeze signal or an air conditioner full-scanning signal, the control unit exits the wind direction self-defining mode.

Specifically, a wind direction self-defining mode exit signal button is arranged on the remote control device, when a user does not need to define the wind direction of the air deflector, the user can automatically exit the wind direction self-defining mode and operate according to the original wind sweeping mode or the original grid mode of the air conditioner. It should be noted that the multi-directional swing control method of the air deflector of the present invention is an auxiliary way of the original wind sweeping and freeze mode of the air conditioner, and the wind direction control is performed according to the wind sweeping and freeze mode when the air conditioner exits.

When the air conditioner is powered off, the air conditioner automatically exits the wind direction self-defining mode, and automatically enters the wind direction self-defining mode and restores the swing sub-interval selected by the user before the power failure when the air conditioner is restarted; or the wind direction self-defining mode is not entered, and the full-sweep or freeze-frame mode is operated. The selection is carried out according to the type of the air conditioner, if the wall-mounted air conditioner is often placed in a bedroom and the direct blowing condition is more, the wall-mounted air conditioner can automatically enter a wind direction self-defining mode after the power failure restart and recover the swing sub-interval selected by a user before the power failure; the cabinet air conditioner is mostly placed in a larger space such as a living room, the direct blowing condition is less, full sweeping can be carried out after power failure and restarting, and the wind direction self-defining mode is entered when a customer selects the wind direction self-defining mode.

Preferably, the air conditioner is kept with the original full-scanning mode and the original freeze mode, namely, the remote control device is kept with the wind-scanning selection key. When the user selects the wind sweeping mode or selects the freeze frame mode through the wind sweeping button, the wind direction self-defining mode is directly exited and the device operates according to the selected full-sweeping mode or freeze frame mode. It should be noted that, when the user presses the sweep button of the remote control device, the air conditioner may perform the full sweep mode or the freeze mode first, specifically, set according to the requirement.

In this embodiment, preferably, when the wind direction self-defining mode is operated, the latest received sub-interval signal and the swing sub-interval corresponding to the latest received sub-interval signal are recorded, and when the wind direction self-defining mode is exited and re-entered, the air deflector is controlled to swing in the recorded swing sub-interval until a new sub-interval signal is received. Specifically, when the latest sub-interval signal received by the air conditioner is to control the air deflector to swing in the second swing sub-interval, after exiting from the wind direction customizing mode and restarting the wind direction customizing mode, the air conditioner controls the air deflector to swing in the second swing sub-interval according to the recorded sub-interval signal corresponding to the second swing sub-interval until the user sends a new sub-interval signal through the remote control device, for example, the user sends a sub-interval model corresponding to the third swing sub-interval newly, and the air conditioner records a sub-interval model corresponding to the third swing sub-interval and controls the air deflector to swing in the third swing sub-interval. The embodiment provides a multidirectional swinging control method of an air deflector with a memory function, which is used for memorizing the swinging range set by a user before, so that the user does not need to set the swinging interval of the air deflector each time when restarting, and the use convenience of the user is improved.

In addition to the above embodiments, the present embodiment further defines that each operation mode records the swing sub-section in each operation mode in the air conditioner. The operation mode refers to a cooling, heating, and dehumidifying mode of the air conditioner. When the air conditioner operates in different operation modes, the latest received subinterval signal in the current operation mode is recorded, and when the operation mode is changed and the subinterval signal is recorded in the changed operation mode, the air deflector is controlled to swing according to the swing subinterval corresponding to the subinterval signal recorded in the changed operation mode. For example, the latest subinterval signal recorded during the operation in the cooling mode is used for controlling the air deflector to swing in the second swing subinterval, and the latest subinterval signal recorded during the operation in the heating mode is used for controlling the air deflector to swing in the fourth swing subinterval; when the air conditioner operates in the cooling mode, the air deflector swings in the second swing subinterval, and when the air conditioner is changed from the cooling mode to the heating mode, the air conditioner automatically controls the air deflector to swing in the fourth swing subinterval. The method and the device limit each operation mode to be effective only for the set mode, wind direction control among the operation modes is not affected, matching degree of the wind direction and the operation modes is improved, the operation wind direction most required by a user is recorded in each operation mode, and the setting process of the user is simplified.

It should be noted that, when the wind direction self-defining mode is operated for the first time in a certain operation mode and no subinterval signal is recorded in the operation mode, the operation mode may be operated according to the full scan mode, wait for the receipt of the subinterval signal and then swing according to the swing subinterval corresponding to the received subinterval signal, or prompt the user to select the swing subinterval on the remote control device, wait for the user to select, receive the subinterval signal and then swing according to the swing subinterval corresponding to the received subinterval signal.

On the basis of the foregoing embodiment, the present embodiment further provides an air deflector multidirectional swing control apparatus, including a control unit and a receiving unit, where the control unit and the receiving unit are used to implement the air deflector multidirectional swing control method according to the foregoing embodiment, and specifically include:

the receiving unit is used for receiving the wind direction self-defined mode starting signal and the subinterval signal and transmitting the signals to the control unit;

the control unit controls the air conditioner to enter a wind direction self-defining mode according to the received wind direction self-defining mode starting signal;

the control unit is also used for setting a plurality of preset positions P1 and P2 … Pn in the swing interval of the air deflector, wherein n is more than or equal to 3; the multiple preset positions are all located in the air deflector swinging interval, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals;

and the control unit also controls the air deflector to swing in the corresponding swing sub-interval according to the received sub-interval signal.

The control device of this embodiment further includes a remote control device, and the remote control device is configured to collect an operation mode, a user-defined wind direction mode, and a subinterval signal selected by a user, and send the wind direction user-defined mode start signal and the subinterval signal to a receiving device. Preferably, the remote control device is a mobile phone, and the user controls the air conditioner through the intelligent terminal.

The control device of the embodiment does not need to add an additional device, has simple structure and low improvement cost, and can carry out multi-directional swing control on the air deflector of the air conditioner.

The present embodiment further provides a computer-readable storage medium, where a computer program is stored, and when the computer program is read and executed by a processor, the method for controlling a multi-directional swing of an air deflector according to any of the foregoing embodiments is implemented.

The present embodiment further provides an air conditioner, where the air conditioner includes a computer-readable storage medium storing a computer program and a processor, and the computer program is read by the processor and executed to implement the method for controlling the multi-directional swinging of the air deflector according to any one of the above embodiments.

The air conditioner further comprises a remote control device, and the remote control device is suitable for sending the wind direction self-defining mode starting signal and the subinterval signal to the receiving device.

The computer readable storage medium divides the swing interval into a plurality of swing sub-intervals, the swing sub-intervals have various choices, the control range of the swing direction is wide, the computer readable storage medium is suitable for a client to define and set the wind direction of the swing according to the scene, the problems of direct blowing of the air and slow temperature balance are solved well, and the computer readable storage medium is humanized; and the air conditioner also does not need to add an additional device, has simple structure and low improvement cost, and can carry out multidirectional swing control on the air deflector of the air conditioner.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (11)

1. A multidirectional swinging control method for an air deflector is characterized by comprising the following steps:

when a wind direction self-defining mode starting signal is received, entering a wind direction self-defining mode, wherein the wind direction self-defining mode comprises the following steps: setting a plurality of preset positions in the swing interval of the air deflector; the preset positions are all located in the air deflector swinging interval; the air deflector is suitable for swinging between any two preset positions, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals;

and when receiving a subinterval signal sent by the remote control device, controlling the air deflector to swing in the corresponding swing subinterval according to the received subinterval signal.

2. The method of claim 1, wherein the first predetermined position to the last predetermined position are sequentially spaced from one end to the other end of the air deflection interval, and the first predetermined position and the last predetermined position are respectively located at two ends of the air deflection interval.

3. The method as claimed in claim 2, wherein the plurality of predetermined positions includes a predetermined position P1, a predetermined position P2, a predetermined position P3, a predetermined position P4 and a predetermined position P5;

the wobble subinterval includes: a first swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P2;

a second swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P3;

a third swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P4;

a fourth swing sub-interval comprising a swing sub-interval between the preset position P1 and the preset position P5;

a fifth swing subinterval comprising a swing subinterval between the preset position P2 to the preset position P3;

a sixth swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P4;

a seventh swing sub-interval comprising a swing sub-interval between the preset position P2 and the preset position P5;

an eighth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P4;

a ninth swing sub-interval comprising a swing sub-interval between the preset position P3 and the preset position P5;

a tenth swing sub-interval comprising a swing sub-interval between the preset position P4 to the preset position P5.

4. The method of any of claims 1-3, wherein the wind direction customization mode is exited upon receiving a wind direction customization mode exit signal, an air conditioner power down, an air conditioner freeze signal, or an air conditioner full sweep signal.

5. The method of claim 4, wherein during the wind direction customization mode, a latest received subinterval signal and a corresponding swing subinterval are recorded, and during exiting and reentering the wind direction customization mode, the wind deflector is controlled to swing in the recorded swing subinterval until a new subinterval signal is received.

6. The multi-directional swinging control method of the air deflector according to any one of claims 1 to 3, wherein the latest received sub-interval signal of the current operation mode is recorded under different operation modes, and when the operation mode is changed and the sub-interval signal is recorded in the changed operation mode, the air deflector swings according to the swinging sub-interval corresponding to the sub-interval signal recorded in the changed operation mode.

7. The method for controlling the multidirectional swinging of the air deflector according to any one of claims 1 to 3, wherein the wind direction self-defined mode starting signal and the subinterval signal are sent out through a remote control device, and the remote control device is an air conditioner remote controller or an intelligent terminal.

8. A multidirectional swinging control device for an air deflector is characterized by comprising:

the receiving unit is used for receiving the wind direction self-defined mode starting signal and the subinterval signal and transmitting the signals to the control unit;

the control unit controls the air conditioner to enter a wind direction self-defining mode according to the received wind direction self-defining mode starting signal;

the control unit is also used for setting a plurality of preset positions P1 and P2 … Pn in the swing interval of the air deflector, wherein n is more than or equal to 3; the multiple preset positions are all located in the air deflector swinging interval, a swinging sub-interval is arranged between the two preset positions, and different swinging sub-intervals correspond to different sub-interval signals;

and the control unit also controls the air deflector to swing in the corresponding swing sub-interval according to the received sub-interval signal.

9. A computer-readable storage medium, wherein the computer-readable storage medium stores a computer program, which when read and executed by a processor, implements the method for controlling multi-directional swinging of a wind deflector according to any one of claims 1-7.

10. An air conditioner comprising a computer readable storage medium storing a computer program and a processor, wherein the computer program is read by the processor and executed to implement the method of controlling multi-directional swinging of an air deflector according to any one of claims 1 to 7.

11. The air conditioner of claim 10, further comprising a remote control device adapted to transmit the wind direction customized mode on signal and the subinterval signal to the receiving device.