CN112815480B - Air conditioner linkage control method, linkage control system and readable storage medium - Google Patents

Abstract

The invention discloses an air conditioner linkage control method, which at least comprises the following steps: 1) acquiring the initial flow rate of indoor air when the range hood is in a closed state, and entering the step 2); 2) operating a user setting mode, judging whether the range hood is started or not, if so, entering a step 3), and if not, keeping the user setting mode unchanged; 3) judging whether the flow speed of the indoor air is greater than the initial flow speed, if so, entering a step 4), and if not, keeping the user set mode unchanged; 4) and executing a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner. After the set temperature is increased, the outlet air temperature of the air conditioner is increased, the temperature drop effect caused by the increase of the indoor air flowing speed is reduced, the temperature of the indoor air can be maintained to be about the set temperature of the user as far as possible, and therefore the comfort of the user is guaranteed. The invention also discloses a linkage control system and a readable storage medium.

Description

Air conditioner linkage control method, linkage control system and readable storage medium

Technical Field

The invention relates to the technical field of design and production of intelligent household articles, in particular to an air conditioner linkage control method, a linkage control system and a readable storage medium.

Background

In order to obtain an ideal oil fume adsorption effect, the suction force of a range hood (namely a range hood) is designed to be larger and larger; due to the suction effect of the range hood, after the range hood in a kitchen is opened, the air pressure in the kitchen can be obviously reduced, so that a large amount of air in other rooms flows to the kitchen, and an airflow continuously flowing into the kitchen can be formed in the whole house type space of a user until the range hood is closed, and the airflow disappears.

The air flow generated by the decrease of the kitchen air pressure increases the air flow rate in the room, so that the temperature field in the room changes, and if the air conditioner continues to operate according to the user setting mode, the indoor temperature cannot be stabilized at the user setting temperature, for example: no matter the air conditioner is in a refrigerating state or a heating state, the indoor actual temperature is lower than the set temperature of the user due to the fact that the flowing speed of indoor air is increased, and the actual body feeling of the user is cold.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an air conditioner linkage control method, so as to achieve linkage between an air conditioner and a range hood, so as to achieve the purpose of maintaining the temperature in other rooms near a set temperature after the range hood is turned on.

It is another object of the present invention to provide a linkage control system;

it is a further object of this invention to provide a readable storage medium.

In order to achieve the purpose, the invention provides the following technical scheme:

an air conditioner linkage control method at least comprises the following steps:

1) acquiring the initial flow rate of indoor air when the range hood is in a closed state, and entering the step 2);

2) operating a user setting mode, judging whether the range hood is started or not, if so, entering a step 3), and if not, controlling the air conditioner to keep the user setting mode unchanged;

3) judging whether the flow speed of the indoor air is greater than the initial flow speed, if so, entering a step 4), and if not, controlling the air conditioner to keep the user set mode unchanged;

4) and executing a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner.

Preferably, in the temperature compensation mode:

if the wind shield of the air conditioner is at the lowest wind shield, only increasing the set temperature of the air conditioner;

if the wind shield of the air conditioner is higher than the lowest wind shield, the method also comprises the following steps while increasing the set temperature of the air conditioner: and lowering the wind level of the air conditioner.

Preferably, the lowering of the wind level of the air conditioner specifically includes: and controlling the wind gear of the air conditioner to be adjusted to a wind gear one level lower than the current wind gear.

Preferably, in the temperature compensation mode, the set temperature is adjusted higher by a preset magnitude.

Preferably, the preset amplitude is 1-3 ℃.

Preferably, after the temperature compensation mode is executed, step 5) is entered;

5) judging whether the range hood is closed, if so, entering a step 6), and if not, controlling an air conditioner to keep the current running state unchanged;

6) judging whether the flow speed of the indoor air is not greater than the initial flow speed, if so, entering a step 7), and if not, controlling the air conditioner to keep the current running state unchanged;

7) performing an enhancement compensation mode, the enhancement compensation mode comprising: keeping the current set temperature of the air conditioner unchanged, and increasing the air outlet speed of the air conditioner on the basis of the user set mode.

Preferably, the step 2) further comprises: acquiring the initial temperature of indoor air when the air conditioner runs in a mode set by a user; the step 7) is followed by a step 8): and judging whether the temperature of the indoor air reaches the initial temperature, if so, controlling the air conditioner to recover to the user set mode, and if not, controlling the air conditioner to keep the current running state unchanged.

The invention discloses a linkage control system, comprising:

the range hood state acquisition module is used for acquiring the opening and closing states of the range hood;

the wind speed sensor is used for acquiring the flow speed of indoor air;

the air conditioner control module controls the air conditioner to operate according to a user set mode when the range hood is in a closed state or the range hood is opened and the flow speed of indoor air is not greater than the initial flow speed of the indoor air when the range hood is in the closed state;

when the range hood is opened and the flow speed of indoor air is greater than the initial flow speed of the indoor air of the range hood in a closed state: the air conditioner control module controls the air conditioner to execute a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner.

Preferably, in the temperature compensation mode:

if the wind level of the air conditioner is at the lowest wind level, the air conditioner control module only increases the set temperature of the air conditioner;

if the wind level of the air conditioner is higher than the lowest wind level, the air conditioner control module increases the set temperature of the air conditioner and simultaneously comprises: and lowering the wind level of the air conditioner.

Preferably, after the air conditioner control module controls the air conditioner to execute the temperature compensation mode, when the range hood is closed and the flow speed of the indoor air is not greater than the initial flow speed:

the air conditioner control module controls the air conditioner to switch to an enhancement compensation mode, wherein the enhancement compensation mode comprises the following steps: keeping the current set temperature of the air conditioner unchanged, and increasing the wind level of the air conditioner on the basis of the user set mode;

and when the range hood is still in an open state or the flow speed of indoor air is greater than the initial flow speed although the range hood is closed, the air conditioner control module controls the air conditioner to keep the current running state unchanged.

Preferably, a temperature sensor is further included;

after the air conditioner control module controls the air conditioner to be switched to an enhanced compensation mode, if the indoor air temperature reaches the initial temperature of the indoor air when the air conditioner runs in a user setting mode, the air conditioner control module controls the air conditioner to be recovered to the user setting mode; and if the indoor air temperature does not reach the initial temperature of the indoor air when the air conditioner runs in the user set mode, the air conditioner control module controls the air conditioner to keep the current running state unchanged.

The readable storage medium disclosed by the invention stores a computer readable program, and the computer readable program can realize the air conditioner linkage control method disclosed in any one item when being executed by a processor.

The air conditioner linkage control method disclosed by the invention comprises the steps of firstly obtaining the initial flow rate of indoor air when a range hood is in a closed state, and operating an air conditioner according to a mode set by a user under the condition that the range hood is not opened; after the range hood is started, if the flow speed of indoor air is still not greater than the initial flow speed, the situation that air in other rooms does not flow to a kitchen in a large quantity is indicated, and at the moment, the air conditioner can continue to operate according to a user set mode;

after the range hood is started, if the flow speed of indoor air is greater than the initial flow speed, the fact that a large amount of air in other rooms flows to a kitchen is indicated, and at the moment, no matter the air conditioner is in a refrigerating state or a heating state, the body feeling of a user is cold due to the increase of the flow speed of the air in the room; therefore, the air conditioner performs a temperature compensation mode, which at least includes increasing a set temperature of the air conditioner.

No matter the air conditioner is in a refrigerating state or a heating state, after the set temperature is increased, the outlet air temperature of the air conditioner is increased, and the temperature drop effect caused by the increase of the indoor air flowing speed is reduced, so that the temperature of the indoor air can be maintained at about the set temperature of a user as much as possible, and the comfort of the user is ensured.

When the range hood is opened and the flow speed of indoor air is greater than the initial flow speed of the indoor air when the range hood is closed, the linkage control system disclosed by the invention comprises the following steps: the air conditioner control module controls the air conditioner to execute the temperature compensation mode, the temperature compensation mode at least comprises the set temperature of the air conditioner, and obviously, when the flow speed of indoor air is increased due to the fact that the range hood is opened, the set temperature of the air conditioner is also increased through the air conditioner control module in the linkage control system, so that the temperature of the indoor air can be maintained to the left and right of the set temperature of a user as much as possible through the linkage control system, and comfort of the user is guaranteed.

The readable storage medium disclosed in the present invention, when being executed by a processor, stores a computer program capable of implementing the air conditioner linkage control method, so that the readable storage medium also has technical advantages corresponding to the air conditioner linkage control method, and further description thereof is omitted herein.

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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of an air conditioner linkage control method disclosed in the embodiment of the present invention.

Detailed Description

One of the cores of the invention is to provide an air conditioner linkage control method so as to realize linkage between an air conditioner and two household appliances of a range hood, thereby achieving the purpose of still keeping the temperature in other rooms near the set temperature after the range hood is started.

Another core of the invention is to provide a linkage control system;

it is yet another core of the present invention to provide a readable storage medium.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1, the air conditioner linkage control method disclosed in the present invention at least includes the following steps:

s1) acquiring the initial flow rate of indoor air when the range hood is in a closed state, and then entering the step S2);

it should be noted that, when the range hood is in the closed state, the air conditioner may be in the on state or in the standby state, but the air conditioner is turned on and turned off, which has little influence on the flow speed of the indoor air, and especially when the wind speed sensor is disposed on the side of the air conditioner, the air flow speeds measured when the air conditioner is turned on and turned off are substantially equal.

S2) operating a user setting mode, judging whether the range hood is started or not, if so, entering the step S3), and if not, controlling the air conditioner to keep the user setting mode unchanged;

it should be noted that, the indoor air flow speed may be changed temporarily due to other reasons, such as temporary windowing, and the change in the indoor air flow speed due to these reasons is only temporary and does not affect the indoor temperature field much, and in order to eliminate these situations, it is necessary to determine whether the range hood is in the on state; the technical personnel in the field can understand that the air conditioner and the range hood can be connected through a circuit to obtain the on and off states of the range hood; or the opening and closing states of the range hood can be acquired in a wireless communication mode.

S3) judging whether the flow speed of the indoor air is larger than the initial flow speed, if so, entering the step S4), and if not, controlling the air conditioner to keep the user setting mode unchanged;

under the state that the range hood is opened, if the flow speed of indoor air is not greater than the initial flow speed, the fact that the opening of the range hood does not affect temperature fields in other rooms is proved, and at the moment, the air conditioner can continuously keep the user set mode unchanged; on the other hand, if the flow rate of the indoor air is higher than the initial flow rate, it is determined that the temperature field of the room other than the kitchen is changed, and it is necessary to adjust the operation mode of the air conditioner in order to avoid the reduction of the user comfort.

S4), executing a temperature compensation mode, the temperature compensation mode at least including increasing the set temperature of the air conditioner.

No matter the air conditioner is in a refrigerating state or a heating state, after the set temperature is increased, the outlet air temperature of the air conditioner is increased, and the temperature drop effect caused by the increase of the indoor air flowing speed is reduced, so that the temperature of the indoor air can be maintained at about the set temperature of a user as much as possible, and the comfort of the user is ensured.

In order to further optimize the technical scheme in the embodiment, in the air conditioner linkage control method disclosed in the embodiment, in the temperature compensation mode, if the wind level of the air conditioner is at the lowest wind level, only the set temperature of the air conditioner is increased; if the wind shield of the air conditioner is higher than the lowest wind shield, the method also comprises the following steps while increasing the set temperature of the air conditioner: and lowering the wind level of the air conditioner.

That is to say, as long as the wind shield of the air conditioner is not at the lowest wind shield, then in the temperature compensation mode, the wind shield of the air conditioner needs to be lowered while the set temperature of the air conditioner is raised, and the wind shield of the air conditioner can be lowered after being lowered, so that the increase of the indoor air flow rate caused by the air outlet of the air conditioner is reduced, the comfort of a user is further ensured, and the cold feeling of the user caused by the increase of the indoor air flow rate is avoided.

It should be noted that, when the air-conditioning gear is turned down, the adjustment gradient thereof may be adaptively set, for example, two or one gear may be turned down at a time, in an embodiment of the present invention, when the air-conditioning gear is turned down, the air-conditioning gear is specifically controlled to be turned to a gear one level lower than the current gear, that is, the adjustment gradient of the air gear is one gear (the original gear is an ultra-strong gear and is lowered to a high gear, the original gear is a high gear and is lowered to a medium gear, the original gear is a medium gear and is lowered to a low gear, the original gear is a low gear and is lowered to a mute gear, and the original gear is a mute gear and remains unchanged).

Similarly, when the set temperature of the air conditioner is increased, the adjustment can be performed according to a preset amplitude, the preset amplitude is a numerical value which can be adaptively changed, for example, the preset amplitude can be 1 ℃, 2 ℃ or 3 ℃, and the like, of course, a user can also perform communication connection with the air conditioner through the intelligent device, and then adaptively adjust the preset amplitude on the intelligent device.

After the range hood is closed, the flow speed of indoor air changes again, and at the moment, the running state of the air conditioner needs to be adjusted again to ensure the comfort of a user, so that the air conditioner linkage control method disclosed in the embodiment of the invention further comprises the following steps:

s5) judging whether the range hood is closed, if so, entering the step S6), and if not, keeping the air conditioner to continuously operate in a temperature compensation mode;

s6) judging whether the flow speed of the indoor air is not greater than the initial flow speed, if so, entering the step S7), and if not, controlling the air conditioner to continuously operate in a temperature compensation mode;

those skilled in the art can understand that although the range hood is turned off, if the indoor air flow speed is still greater than the initial speed, it indicates that the air flow caused by the range hood is still not recovered at this time, and if the temperature compensation mode is stopped, the user may still have a cold feeling, so that the air conditioner needs to be controlled to continue to operate in the temperature compensation mode; and under the condition that the range hood is closed and the indoor air flow speed is not greater than the initial speed, the phenomenon of air flow caused by the range hood is stopped.

S7), executing an enhancement compensation mode, the enhancement compensation mode comprising: keeping the current set temperature of the air conditioner unchanged, and increasing the air outlet speed of the air conditioner on the basis of the user set mode, wherein as a preferred mode, the adjustment gradient when increasing the air outlet speed of the air conditioner is also a first gear (a mute gear is adjusted to be a low gear, a low gear is adjusted to be a medium gear, a medium gear is adjusted to be a high gear, and a high gear is adjusted to be an ultra-strong gear);

the purpose of this step is to quickly restore the indoor air to the temperature before the range hood is turned on.

In this embodiment, step S2) further includes: acquiring the initial temperature of indoor air when an air conditioner runs in a mode set by a user; step S7) further includes the steps of:

s8): and judging whether the temperature of the indoor air reaches the initial temperature, if so, controlling the air conditioner to recover to the user set mode, and if not, controlling the air conditioner to keep the enhanced compensation mode unchanged.

So far, the air conditioner accomplishes a control cycle, and under the initial condition, the air conditioner operation user sets for the mode, along with the opening and closing of lampblack absorber, the air conditioner moves the temperature compensation mode earlier, then gets into the reinforcing compensation mode, resumes to the user and sets for the mode again at last, can guarantee user's comfort when switching between each operation mode in the whole control cycle.

In addition, the embodiment of the invention also discloses a linkage control system which comprises a range hood state acquisition module, an air speed sensor and an air conditioner control module, wherein the range hood state acquisition module can be arranged on the air conditioner and can also be an intelligent device (such as a flat plate, a mobile phone, an intelligent sound box and the like) arranged indoors, the air speed sensor can be arranged on the side wall of the air conditioner, certainly, the air speed sensor can also not be arranged on the air conditioner, the air conditioner control module is usually arranged in a shell of the air conditioner, the components can be in communication connection in a wired or wireless mode, and the range hood state acquisition module is used for acquiring the opening and closing states of a range hood; the wind speed sensor is used for acquiring the flow speed of indoor air;

when the range hood is in a closed state, or the range hood is opened and the flow speed of indoor air is not greater than the initial flow speed of the indoor air when the range hood is in the closed state, the air conditioner control module controls the air conditioner to operate according to a mode set by a user;

when the range hood is opened and the flow speed of indoor air is greater than the initial flow speed of the indoor air of the range hood in a closed state: the air conditioner control module controls the air conditioner to execute a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner.

The linkage control system disclosed in the above embodiment, when the range hood is opened and the flow speed of the indoor air is greater than the initial flow speed of the indoor air when the range hood is closed: the air conditioner control module controls the air conditioner to execute the temperature compensation mode, the temperature compensation mode at least comprises the set temperature of the air conditioner, and obviously, when the flow speed of indoor air is increased due to the fact that the range hood is opened, the set temperature of the air conditioner is also increased through the air conditioner control module in the linkage control system, so that the temperature of the indoor air can be maintained to the left and right of the set temperature of a user as much as possible through the linkage control system, and comfort of the user is guaranteed.

It should be noted that, for a technical term having the same name, the meaning of the term in the linkage control system is the same as the meaning of the term in the air-conditioning linkage control method.

More specifically, in the temperature compensation mode:

if the wind shield of the air conditioner is at the lowest wind shield, the air conditioner control module only increases the set temperature of the air conditioner;

if the wind gear of air conditioner is higher than minimum wind gear, then air conditioner control module still includes when heightening the air conditioner settlement temperature: and lowering the wind level of the air conditioner.

Further, after the air conditioner control module controls the air conditioner to execute the temperature compensation mode, when the range hood is closed and the flow speed of the indoor air is not greater than the initial flow speed:

the air conditioner control module controls the air conditioner to switch to an enhancement compensation mode, and the enhancement compensation mode comprises the following steps: keeping the current set temperature of the air conditioner unchanged (namely the set temperature in the temperature compensation mode), and increasing the wind level of the air conditioner on the basis of the user set mode;

when the range hood is still in an open state, or the range hood is closed but the flow speed of indoor air is greater than the initial flow speed, the air conditioner control module controls the air conditioner to keep the current running state unchanged.

In order to obtain the initial temperature of the indoor air when the air conditioner operates in the mode set by the user, the linkage control system disclosed by the embodiment further comprises a temperature sensor, wherein the temperature sensor can be arranged on the air conditioner or arranged at other places except the air conditioner, as long as the temperature of the indoor air can be measured;

after the air conditioner control module controls the air conditioner to be switched to the enhanced compensation mode, if the indoor air temperature reaches the initial temperature of the indoor air when the air conditioner runs in the user setting mode, the air conditioner control module controls the air conditioner to be recovered to the user setting mode;

and if the indoor air temperature does not reach the initial temperature of the indoor air when the air conditioner operates in the user set mode, the air conditioner control module controls the air conditioner to keep the current operation state unchanged.

In addition, the present invention also discloses a readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method for controlling the linkage of the air conditioner disclosed in any of the above embodiments can be implemented.

Since the air conditioner linkage control method can be realized, the readable storage medium also has the corresponding technical advantages of the air conditioner linkage control method, which are not described herein again.

The embodiments in the present description 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 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.

Claims (12)

1. An air conditioner linkage control method is characterized by at least comprising the following steps:

1) acquiring the initial flow rate of indoor air when the range hood is in a closed state, and entering the step 2);

2) operating a user setting mode, judging whether the range hood is started or not, if so, entering a step 3), and if not, controlling the air conditioner to keep the user setting mode unchanged;

3) judging whether the flow speed of the indoor air is greater than the initial flow speed, if so, entering a step 4), and if not, controlling the air conditioner to keep the user set mode unchanged;

4) and executing a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner.

2. The air conditioner linkage control method according to claim 1, wherein in the temperature compensation mode:

if the wind shield of the air conditioner is at the lowest wind shield, only increasing the set temperature of the air conditioner;

if the wind shield of the air conditioner is higher than the lowest wind shield, the method also comprises the following steps while increasing the set temperature of the air conditioner: and lowering the wind level of the air conditioner.

3. The air conditioner linkage control method according to claim 2, wherein the lowering of the wind level of the air conditioner is specifically: and controlling the wind gear of the air conditioner to be adjusted to a wind gear one level lower than the current wind gear.

4. The coordinated control method of an air conditioner according to claim 1, wherein in the temperature compensation mode, the set temperature is increased by a preset magnitude.

5. The air conditioner linkage control method according to claim 4, wherein the preset amplitude is 1-3 ℃.

6. The air conditioner linkage control method according to claim 2, wherein after the temperature compensation mode is executed, step 5) is performed;

5) judging whether the range hood is closed, if so, entering a step 6), and if not, controlling an air conditioner to keep the current running state unchanged;

6) judging whether the flow speed of the indoor air is not greater than the initial flow speed, if so, entering a step 7), and if not, controlling the air conditioner to keep the current running state unchanged;

7) performing an enhancement compensation mode, the enhancement compensation mode comprising: keeping the current set temperature of the air conditioner unchanged, and increasing the air outlet speed of the air conditioner on the basis of the user set mode.

7. The air conditioner linkage control method according to claim 6, wherein the step 2) further comprises: acquiring the initial temperature of indoor air when the air conditioner runs in a mode set by a user; the step 7) is followed by a step 8): and judging whether the temperature of the indoor air reaches the initial temperature, if so, controlling the air conditioner to recover to the user set mode, and if not, controlling the air conditioner to keep the current running state unchanged.

8. A linkage control system, comprising:

the range hood state acquisition module is used for acquiring the opening and closing states of the range hood;

the wind speed sensor is used for acquiring the flow speed of indoor air;

the air conditioner control module controls the air conditioner to operate according to a user set mode when the range hood is in a closed state or the range hood is opened and the flow speed of indoor air is not greater than the initial flow speed of the indoor air when the range hood is in the closed state;

when the range hood is opened and the flow speed of indoor air is greater than the initial flow speed of the indoor air of the range hood in a closed state: the air conditioner control module controls the air conditioner to execute a temperature compensation mode, wherein the temperature compensation mode at least comprises the step of increasing the set temperature of the air conditioner.

9. The coordinated control system according to claim 8, wherein in the temperature compensation mode:

if the wind level of the air conditioner is at the lowest wind level, the air conditioner control module only increases the set temperature of the air conditioner;

if the wind level of the air conditioner is higher than the lowest wind level, the air conditioner control module increases the set temperature of the air conditioner and simultaneously comprises: and lowering the wind level of the air conditioner.

10. The coordinated control system according to claim 9, wherein after the air conditioner control module controls the air conditioner to execute the temperature compensation mode, when the range hood is turned off and the flow speed of the indoor air is not greater than the initial flow speed:

the air conditioner control module controls the air conditioner to switch to an enhancement compensation mode, wherein the enhancement compensation mode comprises the following steps: keeping the current set temperature of the air conditioner unchanged, and increasing the wind level of the air conditioner on the basis of the user set mode;

and when the range hood is still in an open state or the flow speed of indoor air is greater than the initial flow speed although the range hood is closed, the air conditioner control module controls the air conditioner to keep the current running state unchanged.

11. The coordinated control system according to claim 10, further comprising a temperature sensor;

after the air conditioner control module controls the air conditioner to be switched to an enhanced compensation mode, if the indoor air temperature reaches the initial temperature of the indoor air when the air conditioner runs in a user setting mode, the air conditioner control module controls the air conditioner to be recovered to the user setting mode; and if the indoor air temperature does not reach the initial temperature of the indoor air when the air conditioner runs in the user set mode, the air conditioner control module controls the air conditioner to keep the current running state unchanged.

12. A readable storage medium storing a computer readable program, wherein the computer readable program, when executed by a processor, is capable of implementing the air-conditioning linkage control method according to any one of claims 1 to 7.

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