CN112797591B - Segmented air supply mode switching method and device and air conditioner - Google Patents

Abstract

The invention discloses a method and a device for switching sectional air supply modes and an air conditioner, and relates to the technical field of air conditioners, wherein the method for switching the sectional air supply modes comprises the following steps: receiving a segmented air supply signal input by a user; the segmented air supply signals comprise segmented selection signals, zero wind sensation signals and left and right wind swinging signals; and controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner. The invention can enable the user to respectively carry out the subsection selection, the zero wind sensation setting and the left-right swinging setting in the subsection air supply mode, the user can efficiently and quickly select the required subsection air supply mode, and the use experience of the user is improved.

Description

Segmented air supply mode switching method and device and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a method and a device for switching a segmented air supply mode and an air conditioner.

Background

Along with people's travelling comfort requirement to the air conditioner is higher and higher, the segmentation air supply of air conditioner becomes the main trend that improves the air conditioner travelling comfort gradually, when the air conditioner includes the multistage air outlet, the segmentation combination kind of air outlet is more, and the user is when the segmentation air supply mode to the air conditioner circulates, easily because of the segmentation air supply mode is more, causes the confusion easily, and the time consuming is longer when the circulation switches, can't carry out the mode selection high-efficiently, leads to user's use to experience lowly.

Disclosure of Invention

In order to solve the above problems, the invention provides a method and a device for switching a segmented air supply mode, and an air conditioner, which can facilitate a user to efficiently and quickly select a required segmented air supply mode, and improve the user experience.

According to an embodiment of the present invention, in one aspect, a method for switching a segmented air supply mode is provided, where the method is applied to a target air conditioner, where the target air conditioner includes a multi-segment air deflector, and the method includes: receiving a segmented air supply signal input by a user; the segmented air supply signals comprise segmented selection signals, zero wind sensation signals and left and right wind swinging signals; and controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner.

By adopting the technical scheme, the sectional air supply mode of the target air conditioner is switched based on the sectional air supply signal input by the user, so that the user can respectively perform sectional selection, zero wind sensation setting and left-right wind swinging setting on the air conditioner in the sectional air supply mode, the user can efficiently and quickly select the required sectional air supply mode, and the use experience of the user is improved.

Preferably, the step of controlling the air deflector corresponding to the segmented air supply signal to switch the segmented air supply mode of the target air conditioner includes: determining a target section air deflector selected by a user according to the section selection signal; and performing sectional control on the air deflector of the target air conditioner according to the sectional selection signal, the zero wind sensation signal, the left and right wind swinging signal and the target section air deflector.

By adopting the technical scheme, after the user inputs the sectional selection signal, the user can conveniently select the zero-wind-sense mode and the swinging-wind mode of each air deflector section so as to meet different requirements of the user.

Preferably, the step of determining the target-section air deflector selected by the user according to the section selection signal includes: and when receiving one subsection selection signal, acquiring a first air deflector selected last time in the target air conditioner, and taking a next consequent air deflector of the first air deflector in a preset air deflector circulation sequence as the target section air deflector selected this time by a user.

By adopting the technical scheme, the target air deflector to be selected by the user is determined from the preset air deflector circulation sequence according to the subsection selection signal input by the user, only one target air deflector can be selected each time, the user can select the required target air deflector only by inputting the subsection selection signal, and convenience is brought to the subsection selection of the air deflector by the user.

Preferably, the target air conditioner comprises an upper air deflector, a middle air deflector and a lower air deflector, and the preset air deflector circulation sequence sequentially comprises: the upper segment air deflector, the middle segment air deflector, the lower segment air deflector and the exit segment air supply.

By adopting the technical scheme, the preset air deflector circulation sequence is set, so that a user can freely switch between the three air deflectors and the subsection mode quit, and the air deflector circulation sequence is simple and easy to understand and convenient to operate.

Preferably, the step of performing the sectional control on the air deflector of the target air conditioner according to the sectional selection signal, the zero wind sensation signal, the yaw wind signal and the target air deflector comprises: acquiring receiving orders of the segmentation selection signal, the zero wind sensation signal and the left and right swaying wind signal; and performing sectional control on the air deflector of the target air conditioner based on the receiving sequence and the target section air deflector.

By adopting the technical scheme, the target section air deflector is automatically switched and selected according to the number of the subsection selection signals input by the user, and the zero-wind-sense function switching and the left-right-wind-swing function switching are automatically performed according to the number and the sequence of the zero-wind-sense signals and the left-right-wind-swing signals input by the user, so that the convenience of air conditioner mode switching is improved.

Preferably, the step of performing sectional control on the air deflector of the target air conditioner based on the receiving order and the target section air deflector comprises: when the receiving sequence is the subsection selection signal and the zero-wind-sensation signal in sequence, controlling the opening and closing state of the target section air deflector based on the number of the zero-wind-sensation signals; when the receiving sequence is the subsection selection signal and the left and right yaw signals in sequence, controlling the yaw state of the target section air deflector based on the number of the left and right yaw signals; and when the receiving sequence is the subsection selection signal, the zero wind sensation signal and the left and right wind swaying signals in sequence, controlling the opening and closing states of the target section air deflector based on the number of the zero wind sensation signals, and controlling the wind swaying states of other air deflectors except the target section air deflector based on the number of the left and right wind swaying signals.

By adopting the technical scheme, the sectional zero-wind-feeling, sectional left-right-swinging and sectional multi-angle air supply control of the target air conditioner can be realized according to the user requirements, the requirements of different users are met, and the air conditioner use experience of the users is improved.

Preferably, when the number of the zero wind sensation signals is odd, the open-close state is an open state, when the number of the zero wind sensation signals is even, the open-close state is a closed state, when the number of the left and right wind swinging signals is odd, the wind swinging state is a left and right wind swinging state, and when the number of the left and right wind swinging signals is even, the wind swinging state is a wind stopping state.

By adopting the technical scheme, the switching mode of zero wind sense and left-right swinging wind is set, so that the operation state of each air deflector can be conveniently controlled by a user, and the convenience of the user in using the air conditioner is improved.

According to an embodiment of the present invention, in another aspect, there is provided a device for switching a sectional air supply mode, which is applied to a target air conditioner including a multi-sectional air deflector, the device including: the receiving module is used for receiving a segmented air supply signal input by a user; the segmented air supply signals comprise segmented selection signals, zero wind sensation signals and left and right wind swinging signals; and the control module is used for controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner.

According to an embodiment of the present invention, there is provided an air conditioner including: a multi-segment wind deflector, a computer readable storage medium and a processor storing a computer program which, when read and executed by the processor, implements the method according to any of the first aspects.

According to an embodiment of the present invention, in another aspect, a computer-readable storage medium is provided, which is characterized by storing a computer program, and when the computer program is read and executed by a processor, the computer program implements the method according to any one of the first aspect.

The invention has the following beneficial effects: by receiving three segmented air supply signals input by a user and switching the segmented air supply mode of the target air conditioner based on the segmented air supply signals input by the user, the user can respectively perform segmented selection, zero wind sensation setting and left-right wind swinging setting on the air conditioner in the segmented air supply mode, the user can efficiently and quickly select the required segmented air supply mode, and the use experience of the user is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a flow chart of a method for switching a segmented air supply mode according to the present invention;

fig. 2 is a schematic structural diagram of a segmented blowing mode switching device according to the present invention.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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 first embodiment is as follows:

the present embodiment provides a method for switching a segmented air supply mode, which may be applied to a target air conditioner, where the target air conditioner includes a plurality of air deflectors, each of the air deflectors is connected to a control motor, and referring to a flowchart of the method for switching a segmented air supply mode shown in fig. 1, the method mainly includes the following steps S102 to S104:

step S102: a user-input segmented supply air signal is received.

The segmented air supply signals comprise segmented selection signals, zero wind feeling signals and left and right wind swinging signals. The segmented air supply signal can be input by a user through a control panel arranged on the target air conditioner or can be input through a remote controller of the target air conditioner, and the remote controller sends the segmented air supply signal input by the user to a controller in the target air conditioner through a wireless communication module. Each section of air deflector of the target air conditioner comprises an upper air deflector, a lower air deflector and a left air deflector.

In practical application, the control panel and the remote controller of the target air conditioner can be respectively provided with a segment function key, a zero wind sense key and a left-right wind swinging key, a user inputs a segment selection signal by pressing or clicking the segment function key, the segment selection signal is used for selecting a control motor, and the air deflector corresponding to a segment is selected by selecting the control motor; a user inputs a zero wind sensation signal by pressing or clicking a zero wind sensation key, and the zero wind sensation signal is used for opening/closing the zero wind sensation function of the air deflector; the user inputs a left-right wind swinging signal by pressing or clicking the left-right wind swinging key, and the left-right wind swinging signal is used for opening/closing the left-right wind swinging function of the air deflector.

Step S104: and controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner.

The method comprises the steps that all sections of air deflectors of a target air conditioner are respectively connected with corresponding control motors, the air deflectors can be independently controlled on the basis of all the control motors, the corresponding control motors are determined on the basis of segmented air supply signals input by a user, the control motors are controlled to control the air deflectors corresponding to the segmented air supply signals, and therefore the segmented air supply mode of the target air conditioner is switched to a mode set by the user.

According to the method for switching the segmented air supply mode, the three segmented air supply signals input by the user are received, the segmented air supply mode of the target air conditioner is switched based on the segmented air supply signals input by the user, the user can respectively perform segmented selection, zero wind sensation setting and left-right wind swinging setting on the air conditioner in the segmented air supply mode, the user can conveniently and efficiently select the required segmented air supply mode, and the use experience of the user is improved.

In order to facilitate the switching control of the air conditioner operation mode, this embodiment provides an implementation manner of controlling the air deflector corresponding to the segmented air supply signal to switch the segmented air supply mode of the target air conditioner, which may be specifically executed with reference to the following steps (1) to (2):

step (1): and determining a corresponding target section air deflector according to the section selection signal.

And determining the target section air deflector to be selected by the user according to the section selection signal input by the user. In a specific implementation manner, when a sectional selection signal is received, the first air deflector selected last time in the target air conditioner is obtained, and the next cis-position air deflector of the first air deflector in the preset air deflector circulation sequence is used as the target section air deflector selected this time by the user. When the target air conditioner receives a subsection selection signal, the target air deflector selected by the user last time is used as a first air deflector, and the next consequent air deflector of the first air deflector is obtained from the preset air deflector circulation sequence, so that the target air deflector to be selected by the user at this time is obtained. The target air deflector to be selected by the user is determined from the preset air deflector circulation sequence according to the subsection selection signal input by the user, only one target air deflector can be selected each time, the user can select the required target air deflector only by inputting the subsection selection signal, and convenience is brought to the subsection selection of the air deflector by the user.

In a specific embodiment, the target air conditioner includes an upper air deflector, a middle air deflector, and a lower air deflector, and the preset air deflector circulation sequence sequentially includes: the upper segment air deflector, the middle segment air deflector, the lower segment air deflector and the exit segmented air supply. When the target air conditioner comprises three sections of air deflectors, when a user inputs a section selection signal, the corresponding target section of air deflector is switched and selected from the circulation sequence of the upper section of air deflector, the middle section of air deflector, the lower section of air deflector and the exit section of air supply. Through setting up the aviation baffle circulation order of predetermineeing, convenience of customers freely switches between three-section aviation baffle and withdraw from the segmentation mode, and is easily understood, convenient operation.

For example, after the target air conditioner is powered on, a user inputs a sectional selection signal, namely the user selects a control motor connected with the upper air deflector, and the upper air deflector is used as a target air deflector selected by the user; when the user inputs a subsection selection signal again, the first air deflector (namely the upper section air deflector) selected by the user last time is obtained, the next cis-position air deflector (namely the middle section air deflector) of the first air deflector is used as the target section air deflector selected by the user this time, the operation is repeated, when the user inputs two subsection selection signals again, the subsection air supply mode exits, and when the user inputs a subsection selection signal again, the upper section air deflector is used as the target section air deflector selected by the user; and when the target air conditioner is powered off and shut down, the sectional selection function is reset, and the target air conditioner automatically exits the sectional selection mode.

Step (2): and performing sectional control on the air deflector of the target air conditioner according to the sectional selection signal, the zero wind sensation signal, the left and right wind swinging signal and the target section air deflector.

After the target air deflector selected by the user is determined, the specific air supply mode set by the user can be determined according to the zero-wind-sensation signal and the left-right-wind-swinging signal further input by the user, and then each control motor connected with the air deflector is controlled through the specific air supply mode set by the user.

In order to improve convenience of switching air conditioning modes, the embodiment provides an implementation manner of performing segmented control on an air deflector of a target air conditioner according to a segmented selection signal, a zero wind sensation signal, a yaw wind signal and a target air deflector, and the implementation manner can be specifically executed by referring to the following steps 1 to 2:

step 1: and acquiring the receiving sequence of the subsection selection signal, the zero wind feeling signal and the left and right swaying wind signal.

In order to determine the sectional air supply mode selected by the user, the input sequence and the input times of the sectional selection signal, the zero wind sensation signal and the left-right wind swinging signal input by the user are firstly acquired.

And 2, step: and performing sectional control on the air deflector of the target air conditioner based on the receiving sequence and the target section air deflector.

The target section air deflector is automatically switched and selected according to the number of the subsection selection signals input by the user, and the zero-wind-sense function switching and the left-right wind-swing function switching are automatically performed according to the number and the sequence of the zero-wind-sense signals and the left-right wind-swing signals input by the user, so that the convenience of air conditioner mode switching is improved.

In a specific embodiment, when the receiving sequence is sequentially the section selection signal and the zero wind sensation signal, the opening and closing state of the target section air deflector is controlled based on the number of the zero wind sensation signals. After receiving a segmentation selection signal input by a user, if the user inputs a zero-wind-sensation signal (namely, presses a zero-wind-sensation key once), controlling the left air deflector and the right air deflector of the target air deflector to be closed based on a control motor connected with the target air deflector; and after the user inputs a zero-wind-feeling signal again, controlling the left air deflector and the right air deflector of the target air deflector to be opened based on the control motor connected with the target air deflector so as to close the zero-wind-feeling mode of the air deflector. By selecting the target air deflector and controlling the zero wind sensation mode of the target air deflector, the target air conditioner can be controlled to realize the following air outlet modes:

the upper zero wind feeling mode: a user inputs a subsection selection signal, selects the upper-section air deflector, then inputs a zero-wind-induction signal, the left air deflector and the right air deflector of the upper-section air deflector are closed, and the left air deflector and the right air deflector of the middle-section air deflector and the left air deflector and the right air deflector of the lower-section air deflector are in an open state.

And a middle zero wind feeling mode: a user inputs two segmental selection signals, selects the middle air deflector, inputs a zero-wind-induction signal, closes the left air deflector and the right air deflector of the middle air deflector, and opens the left air deflector and the right air deflector of the upper air deflector and the lower air deflector;

③ the mode of zero wind sense: a user inputs three section selection signals, selects the lower air deflector, inputs a zero wind sensation signal, closes the left air deflector and the right air deflector of the lower air deflector, and opens the left air deflector and the right air deflector of the upper air deflector and the middle air deflector.

And fourthly, an upper and lower zero wind feeling mode: a user inputs a sectional selection signal, selects an upper air deflector, inputs a zero-wind-induction signal and closes a left air deflector and a right air deflector of the upper air deflector; then the user inputs two section selection signals again, selects the lower air deflector, inputs a zero wind sensation signal, closes the left and right air deflectors of the lower air deflector, and opens the left and right air deflectors of the middle air deflector.

Middle and lower zero wind feeling mode: a user inputs two segmental selection signals, selects the middle air deflector, inputs a zero-wind-sense signal and closes the left air deflector and the right air deflector of the middle air deflector; then the user inputs a subsection selection signal again, selects the lower air deflector, inputs a zero wind sense signal, closes the left air deflector and the right air deflector of the lower air deflector, and opens the left air deflector and the right air deflector of the upper air deflector.

Sixthly, a middle-upper zero wind feeling mode: a user inputs a subsection selection signal, selects an upper air deflector, inputs a zero wind sensation signal and closes a left air deflector and a right air deflector of the upper air deflector; then, the user inputs a subsection selection signal again, selects the middle-section air deflector, inputs a zero-wind-induction signal, closes the left air deflector and the right air deflector of the middle-section air deflector, and opens the left air deflector and the right air deflector of the lower-section air deflector.

And a full zero wind feeling mode: the user does not input the segment selection signal, and directly inputs a zero wind feeling signal. Or, the user inputs a subsection selection signal, selects the upper air deflector, inputs a zero wind sensation signal, and closes the upper air deflector; then, the user inputs a subsection selection signal, selects the middle-section air deflector, inputs a zero-wind-induction signal and closes the middle-section air deflector; then the user inputs a subsection selection signal again, selects the lower air deflector, inputs a zero-wind-sense signal, closes the lower air deflector, and closes the upper air deflector, the middle air deflector and the left and right air deflectors of the lower air deflector.

B, a conventional full-open mode: the user inputs four section selection signals, the section selection mode is exited, and the left air deflector and the right air deflector of the upper air deflector, the middle air deflector and the lower air deflector are all in an open state.

And when the receiving sequence is sequentially the subsection selection signal and the left and right swaying wind signal, controlling the swaying wind state of the target section wind deflector based on the number of the left and right swaying wind signals. After receiving a sectional selection signal input by a user, if the user inputs a left-right wind swinging signal (namely, a left-right wind swinging key is pressed down once), controlling the target section air deflector to swing left and right on the basis of a control motor connected with the target section air deflector; when the user inputs a left and right wind swinging signal again, the target section air deflector is controlled to stop swinging left and right based on the control motor connected with the target section air deflector, the blade angle of the target section air deflector keeps unchanged at the current angle, and segmented multi-angle air supply can be realized by controlling the blade angle of each section of air deflector.

When the receiving sequence is sequentially a subsection selection signal, a zero wind sensation signal and a left and right wind swinging signal, the opening and closing state of the target section air deflector is controlled based on the number of the zero wind sensation signal, and the wind swinging state of other air deflectors except the target section air deflector is controlled based on the number of the left and right wind swinging signals.

After receiving a segmentation selection signal input by a user, if the user inputs a zero-wind-sensation signal (namely, a once zero-wind-sensation key is pressed), the target-section air deflector is controlled to be closed based on a control motor connected with the target-section air deflector, the target-section air deflector is controlled to be in a zero-wind-sensation mode, and if the user inputs a left-right wind swinging signal (namely, the once left-right wind swinging key is pressed), other air deflectors except the target-section air deflector are controlled to swing left and right. For example, after the user selects the upper air deflector, the user sequentially receives a zero-wind-sensation signal and a left-right-wind-swinging signal input by the user, the upper air deflector is controlled to be closed based on the upper motor, the upper air deflector is enabled to be in a zero-wind-sensation mode, and the lower air deflector and the middle air deflector are controlled to be in a left-right-wind-swinging state based on the middle motor and the lower motor. Through carrying out segmentation control to the target air conditioner, can realize according to user's demand to the zero wind sense of segmentation, the pendulum wind of segmentation left and right sides and the control of segmentation multi-angle air supply of target air conditioner, satisfy different users ' demand, promoted user's air conditioner and used and experienced.

In one embodiment, in order to facilitate the user to perform the zero wind sensation and yaw wind control, when the number of the zero wind sensation signals is singular, the open-close state of the air deflector is the open state, and when the number of the zero wind sensation signals is even, the open-close state of the air deflector is the close state. Namely, when a user presses the zero-wind-sense key once, the target air deflector is controlled to switch on/off in a zero-wind-sense mode based on the control motor connected with the target air deflector.

When the number of the left and right wind swinging signals is odd, the wind swinging state is a left and right wind swinging state, and when the number of the left and right wind swinging signals is even, the wind swinging state is a wind swinging stopping state. Namely, when a user presses the left-right air swinging key once, the target air deflector is controlled to switch on/off of left-right air swinging based on the control motor connected with the target air deflector. Through setting up the switching mode of zero wind sense and controlling the pendulum wind, can convenience of customers control the running state of each section aviation baffle, promoted the convenience that the user used the air conditioner.

According to the air supply mode switching method provided by the embodiment, the segmented air supply mode is switched according to the signal sequence input by the user, so that the user can efficiently and quickly select the required air supply mode, and the convenience of controlling the air supply mode of the air conditioner by the user is improved.

Example two:

corresponding to the segmented air supply mode switching method provided in the first embodiment, an embodiment of the present invention provides an example of performing segmented mode switching control on a target air conditioner by using the segmented air supply mode switching method, which may be specifically executed with reference to the following steps a to f:

step a: and when the target air conditioner is in the running state, continuously detecting the air supply mode state set by the user.

Step b: and d, judging whether the air supply mode state set by the user is a segmented air supply mode, if so, executing the step d, and if not, executing the step c.

Step c: and controlling each section of air deflector of the target air conditioner to be in a normal full-open mode.

Step d: and continuously detecting the operation of the user on the segmentation function key, and performing selection switching control on the upper motor → the middle motor → the lower motor → the exit segmentation in sequence when the user is detected to press the segmentation function key once.

Step e: and controlling the corresponding air deflector to switch the opening/closing of the zero-wind-sense function when detecting that the user presses the zero-wind-sense key once, and controlling the corresponding air deflector to switch the opening/closing of the left-right-wind-sense function when detecting that the user presses the left-right-wind-swing key once.

When the air deflector enters a zero wind induction mode, the rotating speed of the inner fan is controlled to be increased to A (100+ X)%, wherein the value range of X is 0-20.

Step f: and d, repeatedly executing the steps d to e, and controlling the left and right air guide blades to be kept in the state finally set by the user when the key operation is not detected.

Example three:

corresponding to the segmented air supply mode switching method provided by the first embodiment, an embodiment of the present invention provides a segmented air supply mode switching device, which can be applied to a target air conditioner, where the target air conditioner includes a multi-segment air deflector, and referring to a schematic structural diagram of the segmented air supply mode switching device shown in fig. 2, the device includes the following modules:

a receiving module 21, configured to receive a segmented air supply signal input by a user; the segmented air supply signal comprises a segmented selection signal, a zero wind sense signal and a left and right wind swinging signal.

And the control module 22 is used for controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner.

According to the sectional air supply mode switching device provided by the embodiment, three sectional air supply signals input by a user are received, and the sectional air supply mode of the target air conditioner is switched based on the sectional air supply signals input by the user, so that the user can respectively perform sectional selection, zero wind sensation setting and left-right wind swinging setting on the air conditioner in the sectional air supply mode, the user can conveniently and efficiently select the required sectional air supply mode, and the use experience of the user is improved.

In an embodiment, the control module 22 is further configured to determine a target air deflector selected by a user according to the segment selection signal; and performing segmented control on the air deflector of the target air conditioner according to the segmented selection signal, the zero wind sensation signal, the left and right wind swinging signal and the target air deflector.

In an embodiment, the control module 22 is further configured to, when receiving a segment selection signal, obtain a first air deflector that is selected last time in the target air conditioner, and use a next cis-position air deflector of the first air deflector in a preset air deflector circulation sequence as a target segment air deflector that is selected this time by the user.

In one embodiment, the target air conditioner includes an upper air deflector, a middle air deflector, and a lower air deflector, and the preset air deflector circulation sequence sequentially includes: the upper segment air deflector, the middle segment air deflector, the lower segment air deflector and the exit segment air supply.

In an embodiment, the control module 22 is further configured to obtain a receiving sequence of a segment selection signal, a zero wind sensation signal, and a yaw signal; and performing sectional control on the air deflector of the target air conditioner based on the receiving sequence and the target section air deflector.

In an embodiment, the control module 22 is further configured to control the open/close state of the target-segment air deflector based on the number of the zero-wind-sensation signals when the receiving order is the segment selection signal and the zero-wind-sensation signal in sequence; when the receiving sequence is sequentially a subsection selection signal and a left and right swaying wind signal, controlling the swaying wind state of the target section wind deflector based on the number of the left and right swaying wind signals; when the receiving sequence is sequentially a subsection selection signal, a zero wind sensation signal and a left and right wind swinging signal, the opening and closing state of the target section air deflector is controlled based on the number of the zero wind sensation signal, and the wind swinging state of other air deflectors except the target section air deflector is controlled based on the number of the left and right wind swinging signals.

In one embodiment, the control module 22 is further configured to set the open/close state to the open state when the number of the zero wind sensation signals is singular, set the open/close state to the close state when the number of the zero wind sensation signals is even, set the yaw state to the yaw state when the number of the yaw signals is singular, and set the yaw state to the stop state when the number of the yaw signals is even.

According to the air supply mode switching device provided by the embodiment, the segmented air supply mode is switched according to the signal sequence input by the user, so that the user can efficiently and quickly select the required air supply mode, and the convenience of controlling the air supply mode of the air conditioner by the user is improved.

Example four:

corresponding to the switching method of the segmented air supply mode provided by the first embodiment, the present embodiment provides an air conditioner, including: the multi-segment air deflector, the computer readable storage medium storing the computer program and the processor, wherein the computer program is read by the processor and executed to implement the method for switching the segmented air supply mode provided by the first embodiment. The air deflectors of the sections are respectively connected with a control motor.

In one embodiment, the air conditioner further comprises a segmented function key, a zero-wind-sense key and a left-right-swinging key. The segmentation function key is used for receiving segmentation selection signals input by a user, the zero-wind-sense key is used for receiving zero-wind-sense signals input by the user, and the left-right wind swinging key is used for receiving left-right wind swinging signals input by the user.

Example five:

the present embodiment further provides a computer-readable storage medium, where a computer program is stored, and when the computer program is executed by a processor, the computer program implements each process of the above-mentioned segmented air supply mode switching method embodiment, and can achieve the same technical effect, and in order to avoid repetition, the computer program is not described herein again. The computer-readable storage medium may be a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

Of course, those skilled in the art will understand that all or part of the processes in the methods of the above embodiments may be implemented by instructing the control device to perform operations through a computer, and the programs may be stored in a computer-readable storage medium, and when executed, the programs may include the processes of the above method embodiments, where the storage medium may be a memory, a magnetic disk, an optical disk, and the like.

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

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 identical elements in a process, method, article, or apparatus that comprises the element.

In the present specification, the embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The segmented air supply mode switching device and the air conditioner disclosed by the embodiment correspond to the segmented air supply mode switching method disclosed by the embodiment, so that the description is relatively simple, and relevant points can be referred to the description of the method part.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

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

Claims (7)

1. A method for switching a segmented air supply mode is applied to a target air conditioner, wherein the target air conditioner comprises a multi-segment air deflector, and the method comprises the following steps:

receiving a segmented air supply signal input by a user; the segmented air supply signals comprise segmented selection signals, zero wind sensation signals and left and right wind swinging signals;

controlling an air deflector corresponding to the segmented air supply signal to switch a segmented air supply mode of the target air conditioner; determining a target section air deflector selected by a user according to the subsection selection signal; acquiring receiving orders of the segmentation selection signal, the zero wind sensation signal and the left and right swaying wind signal; the air deflector of the target air conditioner is controlled in a segmented mode based on the receiving sequence and the target air deflector;

the step of performing sectional control on the air deflector of the target air conditioner based on the receiving order and the target section air deflector comprises the following steps:

when the receiving sequence is the subsection selection signal and the zero-wind-sensation signal in sequence, controlling the opening and closing state of the target section air deflector based on the number of the zero-wind-sensation signals;

when the receiving sequence is the subsection selection signal and the left and right yaw signals in sequence, controlling the yaw state of the target section air deflector based on the number of the left and right yaw signals;

and when the receiving sequence is the subsection selection signal, the zero wind sensation signal and the left and right wind swinging signals in sequence, controlling the opening and closing state of the target section air deflector based on the number of the zero wind sensation signals, and controlling the wind swinging states of other air deflectors except the target section air deflector based on the number of the left and right wind swinging signals.

2. The method for switching the air supply mode according to claim 1, wherein the step of determining the target-section air deflector selected by the user according to the section selection signal includes:

and when the subsection selection signal is received, acquiring a first air deflector selected last time in the target air conditioner, and taking a next-position air deflector of the first air deflector in a preset air deflector circulation sequence as the target section air deflector selected this time by the user.

3. The method of switching air supply modes according to claim 2, wherein the target air conditioner includes an upper air deflector, a middle air deflector, and a lower air deflector, and the preset air deflector cycle sequence sequentially includes: the upper segment air deflector, the middle segment air deflector, the lower segment air deflector and the exit segmented air supply.

4. The blowing mode switching method according to claim 1, wherein the open-close state is an open state when the number of the null wind sensation signals is singular, the open-close state is a closed state when the number of the null wind sensation signals is even, the windward state is a windward/leftward/rightward windward state when the number of the windward/leftward/rightward windward signals is singular, and the windward state is a windward stop state when the number of the windward/rightward windward signals is even.

5. The utility model provides a segmentation air supply mode auto-change over device which characterized in that is applied to the target air conditioner, the target air conditioner includes the multistage aviation baffle, the device includes:

the receiving module is used for receiving a segmented air supply signal input by a user; the segmented air supply signals comprise segmented selection signals, zero wind sensation signals and left and right wind swinging signals;

the control module is used for controlling the air deflector corresponding to the segmented air supply signal so as to switch the segmented air supply mode of the target air conditioner; determining a target section air deflector selected by a user according to the subsection selection signal; acquiring receiving orders of the segmentation selection signal, the zero wind sensation signal and the left and right swaying wind signal; the air deflector of the target air conditioner is controlled in a segmented mode based on the receiving sequence and the target air deflector;

the control module is further used for controlling the opening and closing state of the target section air deflector based on the number of the zero wind sensation signals when the receiving sequence is the subsection selection signal and the zero wind sensation signal in sequence; when the receiving sequence is the subsection selection signal and the left and right wind swinging signals in sequence, controlling the wind swinging state of the target section wind deflector based on the number of the left and right wind swinging signals; and when the receiving sequence is the subsection selection signal, the zero wind sensation signal and the left and right wind swinging signals in sequence, controlling the opening and closing state of the target section air deflector based on the number of the zero wind sensation signals, and controlling the wind swinging states of other air deflectors except the target section air deflector based on the number of the left and right wind swinging signals.

6. An air conditioner, comprising: a multi-segment wind deflector, a computer readable storage medium and a processor storing a computer program which, when read and executed by the processor, implements the method of any one of claims 1-4.

7. A computer-readable storage medium, characterized in that it stores a computer program which, when read and executed by a processor, implements the method according to any one of claims 1-4.

Images