CN114396701B - Air conditioner control method and nonvolatile storage medium - Google Patents

Abstract

The invention provides an air conditioner control method and a nonvolatile storage medium, wherein the air conditioner control method is suitable for an air conditioner with a plurality of volute air outlet structures, the air conditioner control method comprises an air outlet control method, and the air outlet control method comprises the following steps: acquiring an air outlet instruction; the air outlet instruction comprises an upper air outlet instruction for enabling the volute tongue parts of the volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet instruction for enabling the volute tongue parts to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part to be located at an upper air outlet position and at least one volute tongue part to be located at a lower air outlet position; starting the volute tongue driving components of the plurality of volute tongue air outlet structures according to the air outlet instruction; acquiring the position of each volute tongue component, and closing the volute tongue driving component when each volute tongue component moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue driving part is closed, each fan part is started. The invention solves the problem that the experience of the user on the air conditioner is poor in the prior art.

Description

Air conditioner control method and nonvolatile storage medium

Technical Field

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

Background

At present, most of air outlets of cabinet air conditioners in the market are positioned right in front of the air conditioners, the positions of the air outlets are fixed, and the air direction is adjusted only by movement of the air guide baffle.

With the development of science and technology and the improvement of the living standard of residents, people seek more comfortable and agreeable living environment due to the gradual abundance of material conditions. More and more families are purchasing household appliances, and the more comfortable and convenient experience is gradually becoming the main factor of purchasing appliances.

However, the air conditioner in the prior art still has the problem that the user feels uncomfortable due to direct blowing of wind, and therefore the user experience is poor.

In addition, most fresh air conditioners in the market usually have a fixed fresh air exchange rate, and generally speaking, under the condition of the same fresh air exchange rate, the fresh air exchange rate of a small room is high, and the fresh air exchange rate of a large room is low.

Disclosure of Invention

The invention mainly aims to provide an air conditioner control method and a nonvolatile storage medium, so as to solve the problem that the experience of a user on an air conditioner is poor in the prior art.

In order to achieve the above object, according to one aspect of the present invention, there is provided an air conditioning control method for an air conditioner having a plurality of volute tongue air outlet structures, each volute tongue air outlet structure including a fan component, a volute tongue component rotatably disposed around the fan component, and a volute tongue driving component for driving the volute tongue component to rotate, each volute tongue component having an upper air outlet position and a lower air outlet position, the air conditioning control method including: acquiring an air outlet instruction; the air outlet instruction comprises an upper air outlet instruction for enabling the volute tongue parts of the volute tongue air outlet structures to be positioned at an upper air outlet position, a lower air outlet instruction for enabling the volute tongue parts to be positioned at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part to be positioned at an upper air outlet position and at least one volute tongue part to be positioned at a lower air outlet position; starting the volute tongue driving components of the volute tongue air-out structures according to the air-out instruction; acquiring the position of each volute tongue component, and closing the volute tongue driving component when each volute tongue component moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue drive component is turned off, each fan component is turned on.

Further, when it is detected that at least one of the plurality of volute tongue components is not located at the air outlet position corresponding to the air outlet instruction, the air outlet control method further includes: and controlling a volute tongue driving part corresponding to the volute tongue part which is not positioned at the corresponding air outlet position to drive the volute tongue part to move until the volute tongue part moves to the corresponding air outlet position.

Furthermore, each volute tongue air outlet structure is provided with a position detection assembly for detecting the position of the volute tongue part; the air outlet control method further comprises the following steps: and detecting the state of each position detection assembly so as to obtain the position of each volute tongue component according to the state of each position detection assembly.

Further, the air conditioner also comprises a fresh air device, and the air conditioner control method also comprises the following steps: acquiring an opening instruction of a fresh air device; after the opening instruction of the fresh air device is obtained, the outdoor environment temperature and the user setting information are obtained; executing an air outlet control method and/or controlling an operation mode of an air conditioner according to user setting information; or controlling the air outlet state of the volute tongue air outlet structure and/or controlling the operation mode of the air conditioner according to the outdoor environment temperature; starting a fresh air fan of a fresh air device and fan components of a plurality of volute tongue air outlet structures; the air outlet state comprises an upper air outlet state for enabling the volute tongue parts of the volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet state for enabling the volute tongue parts to be located at a lower air outlet position, and an upper air outlet state for enabling at least one volute tongue part to be located at an upper air outlet position and at least one volute tongue part to be located at a lower air outlet position; the operation mode includes a heating mode and a cooling mode.

Further, the air conditioner includes single new trend air-out mode, and when the air conditioner was in single new trend air-out mode, the air conditioner control method still included: and controlling the volute tongue driving parts of the plurality of volute tongue air outlet structures to drive the corresponding volute tongue parts to move to the upper air outlet position according to the outdoor environment temperature, and starting a heating mode or a cooling mode of the air conditioner.

Further, when the outdoor environment temperature is between the first preset temperature and the second preset temperature, after each volute tongue component is controlled to be located at the upper air outlet position, the air conditioner control method further comprises the following steps: the fresh air fan of the fresh air control device and fan components of the plurality of volute tongue air outlet structures are all opened to the superstrong windshield.

Further, when the outdoor environment temperature is lower than the first preset temperature, after each volute tongue component is controlled to be located at the upper air outlet position, the air conditioner control method further comprises the following steps: starting a heating mode of the air conditioner, and controlling the air conditioner to heat at a preset heating temperature; the fresh air fan of the fresh air control device and fan components of the volute tongue air outlet structures are all opened to a strong windshield.

Further, when the outdoor environment temperature is higher than the second preset temperature, after each volute tongue component is controlled to be located at the upper air outlet position, the air conditioner control method further comprises the following steps: starting a refrigeration mode of the air conditioner, and controlling the air conditioner to heat at a preset refrigeration temperature; the fresh air fan of the fresh air control device and the fan components of the volute tongue air outlet structures are all opened to a strong windshield.

Further, the air conditioner control method further includes: acquiring indoor air quality; after a fresh air fan of the fresh air device and fan components of the plurality of volute tongue air outlet structures are started, the air conditioner control method further comprises the following steps: and judging whether the indoor air quality is in a preset quality range, and closing a fresh air fan of the fresh air device and fan components of the volute tongue air outlet structures when the indoor air quality is in the preset quality range.

Further, when the indoor air quality is within a predetermined quality range, the air conditioning control method further includes: and sending out a reminding signal for finishing the fresh air change.

Further, the air conditioner includes that the refrigeration goes out the new trend mode and heats and goes out the new trend mode, and when the air conditioner was in refrigeration and goes out the new trend mode and heats and go out the new trend mode, the air conditioner control method still includes: detecting the indoor environment temperature; obtaining a temperature difference between the outdoor environment temperature and the indoor environment temperature; controlling the air outlet windshields of the fan components of the plurality of volute tongue air outlet structures and the air outlet windshield of the fresh air fan of the fresh air device according to the value range of the temperature difference; when the air outlet windshield of the fan component is controlled, the heat exchanger of the air conditioner is controlled to be started in a heating mode or operated in a refrigerating mode.

Further, after obtaining the value range of the temperature difference, the air conditioner control method further includes: judging whether a user sets an air outlet state or not; after the air outlet state set by the user is obtained, executing an air outlet control method according to the user setting information; judging whether a user sets an air outlet windshield of each fan component; and after the air outlet windshield of the fan component is set by the user, the air outlet windshield of the fan component is controlled according to the user setting information.

Further, when the temperature difference value is smaller than the first temperature difference value, the air-conditioning control method further includes: judging whether a user sets an air outlet state or not; after the air outlet state set by the user is obtained, executing an air outlet control method according to user control information; otherwise, controlling each volute tongue driving component to drive the corresponding volute tongue component to move to the upper air outlet position.

Further, after executing the air-out control method or controlling each volute tongue component to run to the upper air-out position according to the user control information, the air-conditioning control method further comprises the following steps: judging whether a user sets an air outlet windshield of each fan component; after the air outlet windshield of the fan component is set by a user, the air outlet windshield of the fan component is controlled according to user control information; otherwise, controlling each fan component to run at a medium wind gear; adjust the fresh air fan of the fresh air device to the superstrong windshield.

Further, when the temperature difference value is greater than or equal to the first temperature difference value and less than the second temperature difference value, the air-conditioning control method further includes: judging whether a user sets an air outlet state or not; executing an air outlet control method according to user control information after the air outlet state set by the user is acquired; otherwise, controlling each volute tongue driving component to drive the corresponding volute tongue component to move to the upper air outlet position.

Further, after executing the air-out control method or controlling each volute tongue component to run to the upper air-out position according to the user control information, the air-conditioning control method further comprises the following steps: judging whether a user sets an air outlet windshield of each fan component; after an air outlet windshield of the fan component is set by a user, controlling the fan component to operate in an n windshield mode according to user control information; otherwise, controlling each fan component to operate in a strong wind shield.

Further, the air conditioner control method further includes: after controlling the fan components to operate with n windshields, adjusting a fresh air fan of a fresh air device to n-1 windshields or low windshields; when each fan component is controlled to operate in a strong wind shield, the fresh air fan of the fresh air device is adjusted to a low wind shield.

Further, when the temperature difference value is greater than the second temperature difference, the air-conditioning control method further includes: controlling each volute tongue driving component to drive the corresponding volute tongue component to move to the upper air outlet position; controlling each fan component to run in an ultra-strong windshield; the fresh air fan of the fresh air device is controlled to run at a medium wind gear.

Further, the air conditioner is in communication connection with the mobile terminal so as to send an air outlet instruction through the mobile terminal.

According to another aspect of the present invention, there is provided a nonvolatile storage medium including a stored program, wherein the program executes the air-conditioning control method described above.

By applying the technical scheme, the air conditioner control method comprises an air outlet control method, wherein the air outlet control method comprises the steps of obtaining an air outlet instruction; the air outlet instructions comprise an upper air outlet instruction for enabling the volute tongue parts of the volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet instruction for enabling the volute tongue parts to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part to be located at an upper air outlet position and at least one volute tongue part to be located at a lower air outlet position; starting the volute tongue driving components of the volute tongue air-out structures according to the air-out instruction; acquiring the position of each volute tongue component, and closing the volute tongue driving component when each volute tongue component moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue drive component is turned off, each fan component is turned on. The air conditioner control method can control the position of the volute tongue component through the volute tongue driving component according to the air outlet instruction of the user, so that the air conditioner has air outlet modes in various self-defined modes, the user can self-define the air outlet mode of the air conditioner according to the requirement and control the air outlet direction of the air conditioner, compared with a fresh air conditioner with a fixed speed, the air conditioner can intelligently adjust the fresh air changing speed in multiple gears, particularly for families with large room area, the intelligent quick fresh air changing can enable the comfort and experience to rise straightly, and the problem that the experience of the user on the air conditioner is poor in the prior art is solved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiment(s) of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram illustrating a volute tongue component of an air conditioner for blowing air up and down according to an embodiment of an air conditioner control method of the present invention;

fig. 2 is a schematic structural view illustrating a volute tongue part of an air conditioner in a downwind state according to an embodiment of an air conditioning control method of the present invention;

fig. 3 is a schematic structural view illustrating a volute tongue part of an air conditioner in an upwind state according to an embodiment of an air conditioning control method of the present invention;

fig. 4 shows a control flow chart of the air outlet in the fresh air only mode according to the embodiment of the air conditioner control method of the invention;

fig. 5 shows a flow chart of fresh air outlet control of the air conditioner in the cooling mode according to the embodiment of the air conditioner control method of the invention;

fig. 6 shows a flow chart of fresh air outlet control when the difference between the indoor and outdoor temperatures is not less than 3 ℃ in the cooling mode according to the air conditioner control method in fig. 5;

fig. 7 shows a flow chart of fresh air outlet control of the air conditioner in the heating mode according to the embodiment of the air conditioner control method of the invention; and

fig. 8 shows a flow chart of fresh air outlet control when the difference between the indoor and outdoor temperatures is not less than 3 ℃ in the heating mode according to the air conditioner control method in fig. 7.

Wherein the figures include the following reference numerals:

10. a fan component; 101. a volute tongue drive component; 100. a volute tongue component.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 8, the present invention provides an air conditioner control method, which is suitable for an air conditioner having a plurality of volute tongue air outlet structures, each volute tongue air outlet structure includes a fan component 10, a volute tongue component 100 rotatably disposed around the fan component 10, and a volute tongue driving component 101 for driving the volute tongue component 100 to rotate, each volute tongue component 100 has an upper air outlet position and a lower air outlet position, the air conditioner control method includes an air outlet control method, and the air outlet control method includes: acquiring an air outlet instruction; the air outlet instructions comprise an upper air outlet instruction for enabling the volute tongue parts 100 of the plurality of volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet instruction for enabling the plurality of volute tongue parts 100 to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part 100 to be located at an upper air outlet position and at least one volute tongue part 100 to be located at a lower air outlet position; starting a plurality of volute tongue driving parts 101 of volute tongue air outlet structures according to the air outlet instruction; acquiring the position of each volute tongue component 100, and closing the volute tongue driving component 101 when each volute tongue component 100 moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue drive 101 is turned off, each fan assembly 10 is turned on.

The air conditioner control method comprises an air outlet control method, wherein the air outlet control method comprises the steps of obtaining an air outlet instruction; the air outlet instructions comprise an upper air outlet instruction for enabling the volute tongue parts 100 of the plurality of volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet instruction for enabling the plurality of volute tongue parts 100 to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part 100 to be located at an upper air outlet position and at least one volute tongue part 100 to be located at a lower air outlet position; starting a plurality of volute tongue driving parts 101 of volute tongue air outlet structures according to the air outlet instruction; acquiring the position of each volute tongue component 100, and closing the volute tongue driving component 101 when each volute tongue component 100 moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue drive 101 is turned off, each fan assembly 10 is turned on. According to the air conditioner control method, the position of the volute tongue component 100 can be controlled through the volute tongue driving component 101 according to the air outlet instruction of the user, so that the user can customize the air outlet mode of the air conditioner according to the requirement and control the air outlet direction of the air conditioner, and the problem that the experience of the user on the air conditioner is poor in the prior art is solved.

Specifically, each of the volute tongue driving parts 101 is a stepping motor.

Specifically, the volute tongue part 100 includes an upper volute tongue part and a lower volute tongue part, and the fan part 10 includes an upper fan part and a lower fan part, wherein the air ducts in which the upper fan part and the lower fan part are located are arranged independently of each other.

In the embodiment of the present invention, the volute tongue air outlet structure further includes a first driving component for controlling the air speed of the fan component 10, and specifically, the first driving component is disposed at the position of each of the upper fan component and the lower fan component.

Specifically, the first driving part is a direct current motor.

Specifically, the stepping motor comprises a first stepping motor for controlling the position of the upper volute tongue part and a second stepping motor for controlling the position of the lower volute tongue part; the DC motor includes a first DC motor for controlling the upper fan assembly and a second DC motor for controlling the lower fan assembly.

Specifically, when it is detected that at least one volute tongue component 100 of the plurality of volute tongue components 100 is not located at the air outlet position corresponding to the air outlet instruction, the air outlet control method further includes: and controlling the volute tongue driving part 101 corresponding to the volute tongue part 100 which is not at the corresponding air outlet position to drive the volute tongue part 100 to move until the volute tongue part 100 moves to the corresponding air outlet position.

In the embodiment of the invention, each volute tongue air outlet structure is provided with a position detection assembly for detecting the position of the volute tongue part 100; the air outlet control method further comprises the following steps: the state of each position sensing assembly is sensed to derive the position of each volute tongue 100 based on the state of each position sensing assembly.

In the implementation of the embodiment of the present invention, the cooperation between the software and the hardware detection device (position detection component) is required to control the correct position of the volute tongue. For example: when the air conditioner receives the air outlet state instruction, the volute tongue driving part 101 is started, and meanwhile, the position of the volute tongue part 100 is detected by the position detection assembly. When the software judges that the volute tongue component 100 is in the correct position, the position of the volute tongue component 100 is locked; and when the software judges that the volute tongue component 100 is not in the correct position, the corresponding volute tongue driving component 101 drives the volute tongue component 100 until the software detects and judges that the volute tongue component 100 is in the correct position, and then the volute tongue is locked.

Specifically, the position detection assembly is a microswitch. The number of the micro switches is multiple, and the micro switches and the volute tongue parts 100 are arranged in a one-to-one correspondence manner, so that the positions of the volute tongue parts 100 can be detected through the micro switches.

In the specific implementation process of the first embodiment of the present invention, as shown in fig. 3, when the air conditioner is in the upper air-out state, after the main chip receives the "upper air-out instruction", the first stepping motor and the second stepping motor are started, and the states of the microswitches are detected at the same time: when the gear of at least one of the plurality of volute tongue parts 100 touches a corresponding micro switch, the level state of the micro switch is immediately turned over, and the main chip immediately stops each stepping motor to lock the state of the gear of the volute tongue part 100 and judge the position of the volute tongue part 100 at the same time. When the position angle of the upper volute tongue component is 0 degrees and the position angle of the lower volute tongue component is 0 degrees, the upper air-out state is judged at the moment, the first direct current motor and the second direct current motor are started to start the upper fan component and the lower fan component, otherwise, the stepping motors are reversed, and when the positions of the volute tongue components 100 are all 0 degrees, the stepping motors are stopped and then started to start the fan components 10.

In a specific implementation process of the second embodiment of the present invention, as shown in fig. 2, when the air conditioner is in a lower air-out state, after the main chip receives a "lower air-out instruction", the first stepping motor and the second stepping motor are started, and at the same time, the states of the respective micro switches are detected: when the gear of at least one volute tongue part 100 in the plurality of volute tongue parts 100 touches a micro switch, the level state of the micro switch is immediately turned over, the main chip immediately stops each stepping motor, the state of the gear of the volute tongue part 100 is locked, and meanwhile, the position of the volute tongue part 100 is judged. When the position of the upper volute tongue component is 180 degrees and the position of the lower volute tongue component is also 180 degrees, the lower air-out state is judged at the moment, and each direct current motor is started to start each fan component, otherwise, the stepping motor is reversed until the position of the upper volute tongue component is 180 degrees and the position of the lower volute tongue component is also 180 degrees, and after the stepping motor is stopped, the direct current motor is started to start each fan component 10.

In a specific implementation process of the third embodiment of the present invention, as shown in fig. 1, when the air conditioner is in the up-and-down air-out state, after the main chip receives the "up-and-down air-out instruction", the first stepping motor and the second stepping motor are started, and the states of the respective micro switches are detected: when the gear of at least one volute tongue part 100 in the plurality of volute tongue parts 100 touches the micro switch, the level state of the micro switch is immediately turned over, the main chip immediately stops each stepping motor, the gear state of each volute tongue part is locked, and meanwhile, the position of each volute tongue part 100 is judged. When the upper volute tongue position is 0 degrees and the lower volute tongue position is 180 degrees, the air conditioner is judged to be in an upper air outlet state and a lower air outlet state and is started simultaneously, then the direct current motor is started to start each fan component 10, otherwise, the stepping motor is reversed until the upper volute tongue position is 0 degrees and the lower volute tongue position is 180 degrees, and the direct current motor is started to start each fan component 10 after the stepping motor is stopped.

Specifically, the positions of the upper and lower volute tongue parts refer to an angle between the volute tongue part 100 and a central axis of the air conditioner in a width direction.

In the embodiment of the invention, the volute tongue air outlet structure is combined with the fresh air system, compared with the traditional cabinet air conditioner with the fixed air outlet, the scheme can intelligently control the fresh air exchange speed, the fresh air exchange speed is obviously increased particularly for families with large rooms, and the comfortable experience of users is greatly improved.

As shown in fig. 4 to 6, the air conditioner further includes a fresh air device, and the air conditioner control method further includes: acquiring an opening instruction of a fresh air device; after the opening instruction of the fresh air device is obtained, the outdoor environment temperature and the user setting information are obtained; executing an air outlet control method and/or controlling an operation mode of an air conditioner according to user setting information; or controlling the air outlet state of the volute tongue air outlet structure and/or controlling the operation mode of the air conditioner according to the outdoor environment temperature; starting a fresh air fan of a fresh air device and fan parts 10 of a plurality of volute tongue air outlet structures; the air outlet state comprises an upper air outlet state for enabling the volute tongue parts 100 of the volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet state for enabling the volute tongue parts 100 to be located at a lower air outlet position, and an upper and lower air outlet state for enabling at least one volute tongue part 100 to be located at an upper air outlet position and at least one volute tongue part 100 to be located at a lower air outlet position; the operation mode includes a heating mode and a cooling mode.

Specifically, the air conditioner includes single new trend air-out mode, and when the air conditioner was in single new trend air-out mode, the air conditioner control method still included: and controlling the volute tongue driving parts 101 of the plurality of volute tongue air outlet structures to drive the corresponding volute tongue parts 100 to move to the upper air outlet position according to the outdoor environment temperature, and starting a heating mode or a cooling mode of the air conditioner.

Specifically, the air conditioner of the present invention further includes a temperature sensor for detecting an outdoor ambient temperature and an indoor ambient temperature.

Further, when the outdoor environment temperature is between the first preset temperature and the second preset temperature, after controlling each volute tongue component 100 to be at the upper air outlet position, the air conditioner control method further includes: the fresh air fan of the fresh air device and the fan parts 10 of the plurality of volute tongue air outlet structures are controlled to be opened to the ultra-strong windshield.

Specifically, the corresponding volute tongue component is controlled to be in an upper air outlet state through the stepping motor 1 (a first stepping motor) and the stepping motor 2 (a second stepping motor). The corresponding fan components are controlled to be opened to the ultra-strong windshield by the fresh air motor, the direct current motor 1 (a first direct current motor) and the direct current motor 2 (a second direct current motor).

Wherein, the wind shield of new trend fan is controlled to the new trend motor. In an embodiment of the invention, the first predetermined temperature is 18 ℃ and the second predetermined temperature is 24 ℃.

When the outdoor temperature is between 18 ℃ and 24 ℃, the outdoor temperature is more suitable, therefore, after each volute tongue component 100 is controlled to be positioned at the upper air outlet position, the fresh air fan of the fresh air device and the fan components 10 of the plurality of volute tongue air outlet structures are controlled to be opened to the super-strong windshield, the highest gear wind speed is started by the fresh air motor and the volute tongue driving components 101 of the fan components of the volute tongue air outlet structures, the fresh air speed is changed quickly, and the comfortable temperature of an indoor human body is not influenced.

In embodiments of the present invention where the outdoor temperature is not between 18 c and 24 c, people in the room may experience discomfort if outdoor air is directed into the room. In order to avoid the situation, when the outdoor temperature is not between 18 and 24 ℃, the air conditioner firstly judges whether the outdoor temperature is high or low, and then sets the air conditioner to be in an upward air-out state, and specifically, the stepping motor 1 (first stepping motor) and the stepping motor 2 (second stepping motor) control corresponding volute tongue components to be in the upward air-out state.

Specifically, when the outdoor environment temperature is lower than the first preset temperature, after controlling each volute tongue component 100 to be at the upper air outlet position, the air conditioner control method further includes: starting a heating mode of the air conditioner, and controlling the air conditioner to heat at a preset heating temperature; the fresh air fan of the fresh air control device and the fan parts 10 of the plurality of volute tongue air outlet structures are all opened to a strong windshield.

When the outdoor environment temperature is lower than 18 ℃, the temperature is relatively low, if outdoor air directly enters the room, people in the room may feel cold, therefore, the heating mode of the air conditioner is started, the value range of the preset heating temperature is 26 ℃ to 29 ℃, specifically, the preset heating temperature is set to 28 ℃, and after heating for a period of time, the fresh air fan of the fresh air device and the fan parts 10 of the plurality of volute tongue air outlet structures are controlled to be opened to the strong windshield.

Specifically, when the outdoor environment temperature is greater than the second preset temperature, after controlling each volute tongue component 100 to be in the upper air outlet position, the air conditioner control method further includes: starting a refrigeration mode of the air conditioner, and controlling the air conditioner to heat at a preset refrigeration temperature; the fresh air fan of the fresh air control device and the fan parts 10 of the plurality of volute tongue air outlet structures are all opened to a strong windshield.

When the outdoor environment temperature is higher than 24 ℃, the temperature is higher, if outdoor air directly enters the room, people in the room can feel heat, therefore, the refrigeration mode of the air conditioner is started at the moment, the value range of the preset refrigeration temperature is 15 ℃ to 17 ℃, specifically, the preset refrigeration temperature is 16 ℃, and after refrigerating for a period of time, the fresh air fan of the fresh air device and the fan parts 10 of the volute tongue air outlet structures are controlled to be opened to a strong windshield.

In the embodiment of the invention, the fresh air fan and each fan component 10 are driven to a strong wind by controlling the fresh air motor, the direct current motor 1 (first direct current fan) and the direct current motor 2 (second direct current fan).

Specifically, the air conditioner control method further includes: acquiring indoor air quality; after a fresh air fan of the fresh air device and the fan components 10 of the plurality of volute tongue air outlet structures are started, the air conditioner control method further comprises the following steps: and judging whether the indoor air quality is in a preset quality range, and when the indoor air quality is in the preset quality range, closing a fresh air fan of the fresh air device and the fan components 10 of the volute tongue air-out structures, otherwise, continuously detecting whether the indoor air quality is in the preset quality range until the indoor air quality reaches a standard value.

In an embodiment of the present invention, the air conditioner further includes an air quality detecting part for detecting indoor air quality.

Specifically, when the indoor air quality is within a predetermined quality range, the air conditioning control method further includes: and sending out a reminding signal for finishing the fresh air change.

In the specific implementation process of the embodiment of the invention, when the indoor air quality is within the preset quality range, the fresh air fan of the fresh air device and the fan components 10 of the plurality of volute tongue air outlet structures are closed, and then a reminding signal for finishing fresh air exchange is sent.

In the embodiment of the invention, the CO in the air is judged ₂ Whether the concentration is within the standard range is judged to determine whether the indoor air quality is within the predetermined quality range.

Specifically, the air quality detection part comprises CO ₂ Sensor, CO ₂ Sensor for detecting CO of indoor air ₂ Concentration values.

In particular, when CO is present in the air ₂ When the concentration is in the standard range, the fresh air fan, the direct current motor 1 (the first direct current motor) and the direct current motor 2 (the second direct current motor) are closed, and then the user is reminded of finishing fresh air change.

Specifically, the air conditioner includes a refrigeration fresh air outlet mode and a heating fresh air outlet mode, and when the air conditioner is in the refrigeration fresh air outlet mode and the heating fresh air outlet mode, the air conditioner control method further comprises the following steps: detecting the indoor environment temperature; obtaining a temperature difference between the outdoor environment temperature and the indoor environment temperature; controlling the air outlet windshields of the fan components of the plurality of volute tongue air outlet structures and the air outlet windshield of the fresh air fan of the fresh air device according to the value range of the temperature difference; when the air outlet damper of the fan component 10 is controlled, the heat exchanger of the air conditioner is controlled to be started in a heating mode or operated in a cooling mode.

Further, after obtaining the value range of the temperature difference, the air conditioner control method further includes: judging whether a user sets an air outlet state or not; after the air outlet state set by the user is acquired, executing an air outlet control method according to the user setting information; judging whether a user sets the air outlet windshield of each fan component 10; after the air outlet windshield of the fan component 10 is set by the user, the air outlet windshield of the fan component 10 is controlled according to the user setting information.

Specifically, when the temperature difference value is smaller than the first temperature difference value, the air-conditioning control method further includes: judging whether a user sets an air outlet state or not; executing an air outlet control method according to user control information after the air outlet state set by the user is acquired; otherwise, controlling each volute tongue driving component 101 to drive the corresponding volute tongue component 100 to move to the upper air outlet position.

Specifically, the state of the volute tongue component is adjusted to a user setting state through a stepping motor 1 (a first stepping motor) and a stepping motor 2 (a second stepping motor); the state of each volute tongue component is controlled to be an upper air outlet state through a stepping motor 1 (a first stepping motor) and a stepping motor 2 (a second stepping motor).

In an embodiment of the invention, the first temperature difference value is 3 ℃.

In the specific implementation process of the embodiment of the invention, a main chip of the air conditioner reads a temperature value set by a user, obtains an indoor temperature value and an outdoor temperature value through a temperature sensor, and obtains an indoor temperature value and an outdoor temperature value through CO ₂ Sensor for acquiring CO in room ₂ After the concentration value is obtained, after the main chip reads the relevant numerical value, whether the indoor and outdoor temperature difference is less than 3 ℃ is judged.

Further, after executing the air outlet control method or controlling each volute tongue component 100 to operate to the upper air outlet position according to the user control information, the air conditioner control method further includes: judging whether a user sets the air outlet windshield of each fan component 10; after the air outlet windshield of the fan component 10 is set by a user, the air outlet windshield of the fan component 10 is controlled according to user control information; otherwise, controlling each fan assembly 10 to operate at medium wind; the fresh air fan of the fresh air device is adjusted to the ultra-strong windshield, and after the air conditioner runs for a period of time, CO is generated ₂ Sensor for detecting indoor CO ₂ In a concentration of, if CO ₂ If the concentration reaches the standard, reminding the user of completing the fresh air change, otherwise, continuously detecting until the indoor CO is detected ₂ The concentration reaches the standard value.

In the embodiment of the present invention, as shown in fig. 5 to 8, after the air-out control method is executed or each volute tongue component 100 is controlled to operate to the upper air-out position according to the user control information, it is determined whether the user sets a cooling windshield or a heating windshield.

Specifically, when the temperature difference is greater than or equal to the first temperature difference, it is further detected whether the temperature difference is smaller than the second temperature difference.

As shown in fig. 6, when the temperature difference is greater than or equal to the first temperature difference and less than the second temperature difference, the air-conditioning control method further includes: judging whether a user sets an air outlet state; executing an air outlet control method according to user control information after the air outlet state set by the user is acquired; otherwise, controlling each volute tongue driving component 101 to drive the corresponding volute tongue component 100 to move to the upper air outlet position.

In an embodiment of the invention, the second temperature difference value is 12 ℃.

Further, after executing the air outlet control method or controlling each volute tongue component 100 to operate to the upper air outlet position according to the user control information, the air conditioner control method further includes: judging whether a user sets the air outlet windshield of each fan component 10; after the air outlet windshield of the fan component 10 is set by a user, controlling the fan component 10 to operate by an n windshield according to user control information; otherwise, the respective fan units 10 are controlled to operate in a strong wind.

Further, the air conditioner control method further includes: after the fan component 10 is controlled to operate with n windshields, a fresh air fan of the fresh air device is adjusted to n-1 windshields or low windshields; when each fan component 10 is controlled to operate at a strong wind shield, the fresh air fan of the fresh air device is adjusted to a low wind shield, and after the air conditioner operates for a period of time, CO is generated ₂ Sensor for detecting indoor CO ₂ In a concentration of, if CO ₂ If the concentration reaches the standard, reminding the user of completing the fresh air change, otherwise, continuously detecting until the indoor CO is detected ₂ The concentration reaches the standard value. Wherein, when the n-1 windshield is a low windshield, the low windshield is executed.

In an embodiment of the present invention, when the temperature difference value is greater than the second temperature difference, the air-conditioning control method further includes: controlling each volute tongue driving component 101 to drive the corresponding volute tongue component 100 to move to the upper air outlet position; controlling each fan component 10 to run with an ultra-strong windshield; the fresh air fan of the fresh air device is controlled to run at a medium wind gear, and after the air conditioner runs for a period of time, CO is added ₂ Sensor for detecting indoor CO ₂ In a concentration of, if CO ₂ If the concentration reaches the standard, reminding the user of finishing the fresh air change, otherwise, continuously detecting until the indoor CO is detected ₂ The concentration reaches the standard value.

In an embodiment of the invention, the entire air conditioning system has four windshields: the system comprises a low windscreen, a medium windscreen, a strong windscreen and an ultra-strong windscreen, wherein the low windscreen, the medium windscreen, the strong windscreen and the ultra-strong windscreen are respectively and correspondingly represented by natural numbers 1, 2, 3 and 4, after a user sets the windscreen, the natural number of the windscreen is given to a natural number n, and n-1 is lower than the windscreen set by the user; let n-1=1 when n = 1).

Specifically, the rotating speeds of different windshields can be set and adjusted according to actual conditions.

In the above embodiment, the fan component is adjusted to the windshield set by the user or to the predetermined windshield by the dc motor 1 and the dc motor 2, wherein the wind gear of each dc motor and the wind gear of the fresh air motor can be flexibly adjusted according to the actual situation, and in any mode, the user can automatically adjust the fresh air windshield and the air outlet mode.

In conclusion, the micro switch and the volute tongue structure are combined, the program judgment speed can be improved, the air exchange efficiency is higher, and in a fresh air mode, the air conditioner motor can intelligently adjust the air speed and accelerate the air exchange speed.

In the first alternative embodiment of the invention, the air conditioner is in communication connection with the mobile terminal so as to send an air outlet instruction through the mobile terminal, specifically, the fresh air function can be combined with the mobile phone APP function, and the user can start the fresh air function in advance before arriving at home, so that the comfort is better.

In the second alternative embodiment of the invention, after the air conditioner runs for a long time, the room humidity can be reduced, the fresh air function can be combined with the humidifying function, the fresh air experience is brought to users, and the problem of indoor drying can be solved.

In a third alternative embodiment of the invention, the air outlet can be added with a fumigation filter screen, so that the indoor air can be fresher while dust is prevented from entering a room, the life experience is improved, and the female market is expanded.

In a fourth alternative embodiment of the present invention, a volute tongue air outlet structure may be used, and the PCB substrate may be replaced with an aluminum substrate.

The invention also provides a nonvolatile storage medium, which comprises a stored program, wherein the program executes the air conditioner control method.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

the air conditioner control method comprises an air outlet control method, wherein the air outlet control method comprises the steps of obtaining an air outlet instruction; the air outlet instructions comprise an upper air outlet instruction for enabling the volute tongue parts 100 of the plurality of volute tongue air outlet structures to be located at an upper air outlet position, a lower air outlet instruction for enabling the plurality of volute tongue parts 100 to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue part 100 to be located at an upper air outlet position and at least one volute tongue part 100 to be located at a lower air outlet position; starting a plurality of volute tongue driving parts 101 of volute tongue air outlet structures according to the air outlet instruction; acquiring the position of each volute tongue component 100, and closing the volute tongue driving component 101 when each volute tongue component 100 moves to the air outlet position corresponding to the air outlet instruction; after each volute tongue drive 101 is turned off, each fan assembly 10 is turned on. The air conditioner control method can control the position of the volute tongue component 100 through the volute tongue driving component 101 according to the air outlet instruction of a user, so that the air conditioner has air outlet modes in various self-defined modes, the user can self-define the air outlet mode of the air conditioner according to the requirement and control the air outlet direction of the air conditioner, compared with a fresh air conditioner with a fixed speed, the air conditioner can intelligently adjust the fresh air changing speed in multiple gears, particularly for families with large room areas, the intelligent quick fresh air changing can enable the comfort and experience to rise straightly, and the problem that the experience of the user on the air conditioner is poor in the prior art is solved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (19)

1. An air conditioner control method is suitable for an air conditioner with a plurality of volute tongue air outlet structures, each volute tongue air outlet structure comprises a fan component (10), a volute tongue component (100) rotatably arranged around the fan component (10) and a volute tongue driving component (101) used for driving the volute tongue component (100) to rotate, each volute tongue component (100) is provided with an upper air outlet position and a lower air outlet position, the air conditioner is characterized by further comprising a fresh air device, the air conditioner control method comprises an air outlet control method, and the air outlet control method comprises the following steps:

acquiring an air outlet instruction; the air outlet instructions comprise an upper air outlet instruction for enabling the plurality of volute tongue components (100) of the volute tongue air outlet structure to be located at an upper air outlet position, a lower air outlet instruction for enabling the plurality of volute tongue components (100) to be located at a lower air outlet position, and an upper and lower air outlet instruction for enabling at least one volute tongue component (100) to be located at the upper air outlet position and at least one volute tongue component (100) to be located at the lower air outlet position;

according to the air outlet instruction, starting a plurality of volute tongue driving parts (101) of the volute tongue air outlet structure;

acquiring the position of each volute tongue component (100), and closing the volute tongue driving component (101) when each volute tongue component (100) moves to the air outlet position corresponding to the air outlet instruction;

activating each of the fan components (10) after each of the volute tongue drive components (101) has been turned off;

acquiring an opening instruction of the fresh air device;

after the opening instruction of the fresh air device is obtained, the outdoor environment temperature and the user setting information are obtained;

executing the air outlet control method and/or controlling the operation mode of the air conditioner according to the user setting information; or controlling the air outlet state of the volute tongue air outlet structure and/or controlling the operation mode of the air conditioner according to the outdoor environment temperature;

starting a fresh air fan of the fresh air device and a plurality of fan components (10) of the volute tongue air outlet structures;

the operation mode includes a heating mode and a cooling mode.

2. The air conditioning control method according to claim 1, wherein when it is detected that at least one of the plurality of volute tongue components (100) is not in the outlet position corresponding to the outlet instruction, the outlet control method further comprises:

and controlling a volute tongue driving part (101) corresponding to the volute tongue part (100) which is not at the corresponding air outlet position to drive the volute tongue part (100) to move until the volute tongue part (100) moves to the corresponding air outlet position.

3. The air conditioner control method according to claim 1, wherein each volute tongue air outlet structure is provided with a position detection component for detecting the position of the volute tongue component (100); the air outlet control method further comprises the following steps:

and detecting the state of each position detection assembly so as to obtain the position of each volute tongue component (100) according to the state of each position detection assembly.

4. The air conditioner control method according to claim 1, wherein the air conditioner includes a single fresh air outlet mode, and when the air conditioner is in the single fresh air outlet mode, the air conditioner control method further includes:

and controlling the volute tongue driving parts (101) of the plurality of volute tongue air outlet structures to drive the corresponding volute tongue parts (100) to move to an upper air outlet position according to the outdoor environment temperature, and starting a heating mode or a cooling mode of the air conditioner.

5. The air conditioning control method according to claim 4, wherein when the outdoor ambient temperature is between a first preset temperature and a second preset temperature, after controlling each volute tongue component (100) to be in the upper air outlet position, the air conditioning control method further comprises:

and a fresh air fan for controlling the fresh air device and fan parts (10) of the plurality of volute tongue air outlet structures are all opened to the superstrong windshield.

6. The air conditioning control method according to claim 4, wherein when the outdoor ambient temperature is less than a first preset temperature, after controlling each of the volute tongue parts (100) to be in the upper air outlet position, the air conditioning control method further comprises:

starting a heating mode of the air conditioner, and controlling the air conditioner to heat at a preset heating temperature;

and a fresh air fan for controlling the fresh air device and fan components (10) of the volute tongue air outlet structures are all opened to a strong windshield.

7. The air conditioning control method according to claim 4, wherein when the outdoor ambient temperature is greater than a second preset temperature, after controlling each of the volute tongue parts (100) to be in the upper air outlet position, the air conditioning control method further comprises:

starting a refrigeration mode of the air conditioner, and controlling the air conditioner to heat at a preset refrigeration temperature;

and a fresh air fan for controlling the fresh air device and fan components (10) of the plurality of volute tongue air outlet structures are all opened to a strong windshield.

8. The air conditioning control method according to claim 1, characterized by further comprising:

acquiring indoor air quality;

after a fresh air fan of the fresh air device and a plurality of fan components (10) of the volute tongue air outlet structure are started, the air conditioner control method further comprises the following steps:

and judging whether the indoor air quality is in a preset quality range, and closing a fresh air fan of the fresh air device and fan components (10) of the volute tongue air outlet structures when the indoor air quality is in the preset quality range.

9. The air conditioning control method according to claim 8, wherein when the indoor air quality is within the predetermined quality range, the air conditioning control method further comprises:

and sending out a reminding signal for finishing the fresh air change.

10. The air conditioner control method according to claim 1, wherein the air conditioner includes a cooling fresh air output mode and a heating fresh air output mode, and when the air conditioner is in the cooling fresh air output mode and the heating fresh air output mode, the air conditioner control method further comprises:

detecting the indoor environment temperature;

obtaining a temperature difference between the outdoor ambient temperature and the indoor ambient temperature;

controlling the air outlet windshields of the fan components (10) of the plurality of volute tongue air outlet structures and the air outlet windshield of the fresh air fan of the fresh air device according to the value range of the temperature difference;

when the air outlet damper of the fan component (10) is controlled, the heat exchanger of the air conditioner is controlled to be started in a heating mode or operated in a refrigerating mode.

11. The air conditioning control method according to claim 10, wherein after obtaining the value range of the temperature difference value, the air conditioning control method further comprises:

judging whether a user sets an air outlet state or not;

after the air outlet state set by the user is acquired, executing the air outlet control method according to the user setting information;

judging whether a user sets an air outlet windshield of each fan component (10);

and after the air outlet windshield of the fan component (10) is set by the user, controlling the air outlet windshield of the fan component (10) according to the user setting information.

12. The air conditioning control method according to claim 10, wherein when the temperature difference value is smaller than a first temperature difference value, the air conditioning control method further comprises:

judging whether a user sets an air outlet state;

after the air outlet state set by the user is acquired, executing the air outlet control method according to user control information; otherwise, controlling each volute tongue driving component (101) to drive the corresponding volute tongue component (100) to move to the upper air outlet position.

13. The air conditioning control method according to claim 12, wherein after the air outlet control method is executed or each volute tongue component (100) is controlled to run to the upper air outlet position according to user control information, the air conditioning control method further comprises:

judging whether a user sets an air outlet windshield of each fan component (10);

after the air outlet windshield of the fan component (10) is set by a user, the air outlet windshield of the fan component (10) is controlled according to user control information; otherwise, controlling each fan component (10) to operate at a medium wind speed;

and adjusting a fresh air fan of the fresh air device to the ultra-strong windshield.

14. The air conditioning control method according to claim 10, wherein when the temperature difference value is greater than or equal to a first temperature difference value and less than a second temperature difference value, the air conditioning control method further comprises:

judging whether a user sets an air outlet state or not;

after the air outlet state set by the user is acquired, executing the air outlet control method according to user control information; otherwise, controlling each volute tongue driving component (101) to drive the corresponding volute tongue component (100) to move to the upper air outlet position.

15. The air conditioning control method according to claim 14, wherein after the air outlet control method is executed or each volute tongue component (100) is controlled to run to the upper air outlet position according to user control information, the air conditioning control method further comprises:

judging whether a user sets an air outlet windshield of each fan component (10);

after an air outlet windshield of the fan component (10) is set by a user, controlling the fan component (10) to operate in an n windshield according to user control information; otherwise, controlling each fan component (10) to operate in a strong wind shield.

16. The air conditioning control method according to claim 15, further comprising:

after controlling the fan component (10) to operate with n windshields, adjusting a fresh air fan of the fresh air device to n-1 windshields or low windshields;

and when each fan component (10) is controlled to operate at a strong wind shield, the fresh air fan of the fresh air device is adjusted to a low wind shield.

17. The air conditioning control method according to claim 10, wherein when the temperature difference value is greater than a second temperature difference, the air conditioning control method further comprises:

controlling each volute tongue driving component (101) to drive the corresponding volute tongue component (100) to move to an upper air outlet position;

controlling each fan component (10) to run with an ultra-strong windshield;

and controlling a fresh air fan of the fresh air device to operate at a medium wind gear.

18. The air conditioner control method according to claim 1, wherein the air conditioner is in communication connection with a mobile terminal so as to send the air outlet instruction through the mobile terminal.

19. A nonvolatile storage medium characterized by comprising a stored program, wherein the program executes the air-conditioning control method according to any one of claims 1 to 18.

Images