CN109539497B - Intelligent air conditioner and control method thereof - Google Patents

Abstract

The invention provides an intelligent air conditioner and a control method thereof, comprising the following steps: s1, operating an air conditioner; s2, detecting humidity information; s3, judging whether the humidity information meets the preset condition, if so, performing S4, and if not, performing S5; s4, keeping the current running state of the air conditioner; and S5, alarming and controlling the humidity correspondingly. The invention detects the air humidity of the room in real time and gives an alarm when the environment humidity is not suitable; the air conditioner automatically regulates and controls the air humidity of the room, or a user regulates and controls the air humidity of the air conditioner through an air conditioner remote controller or a user terminal, so that the air quality and the comfort of the room are improved, and the influence on human health caused by the unsuitable air humidity of the room is avoided.

Description

Intelligent air conditioner and control method thereof

Technical Field

The invention relates to an intelligent air conditioner and a control method thereof.

Background

The air conditioner is a common household appliance, can adjust the indoor temperature when the weather is too cold or too hot, and makes the indoor environment more suitable for human living. However, the conventional air conditioner often lacks the functions of detecting, alarming and intelligently adjusting the humidity of the air, and cannot intelligently detect, alarm and adjust the indoor humidity information, so that the indoor environment is over-high or over-low in humidity.

If the indoor environment humidity is too low, uncomfortable body feelings such as dry mouth, tight muscle and the like are generated for people, and an environment is provided for breeding and spreading of viruses and bacteria, so that diseases are easy to occur and spread, and the health of people is not facilitated; if the indoor environment humidity is too high, not only mould is easy to breed and threatens the health of human bodies, but also people are easy to feel tired, dizziness, inappetence and the like, and even the attack of rheumatic arthritis can be caused; therefore, if people live and work in an environment with overhigh or overlow humidity for a long time, the health of people can be seriously affected.

Therefore, in order to solve the above problems, the present invention provides an intelligent air conditioner and a control method thereof, wherein a humidity detection device is disposed on the air conditioner to detect the humidity of a room in real time, and when the ambient humidity is not suitable, corresponding operations are intelligently executed, so as to avoid the influence on human health caused by the unsuitable humidity of the air in the room.

Disclosure of Invention

The invention aims to solve the problem that the existing air conditioner lacks intelligent humidity detection, alarm and regulation functions, and provides an intelligent air conditioner and a control method thereof.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a control method of an intelligent air conditioner comprises the following steps:

s1, operating an air conditioner;

s2, detecting humidity information;

s3, judging whether the humidity information meets the preset condition, if so, performing S4, and if not, performing S5;

s4, keeping the current running state of the air conditioner;

and S5, alarming and controlling the humidity correspondingly.

Further, the humidity information at least includes the current relative humidity RH and the relative humidity change value Δ RH per unit time.

Preferably, in step S3, the preset conditions at least include:

whether the current relative humidity RH is less than the maximum preset humidity RH_Max；

Whether the current relative humidity RH is greater than the minimum preset humidity RH_Min。

Preferably, step S5 includes:

s51, alarming and lasting for a preset time;

s52, judging whether the user performs manual regulation or not during the alarm period, if so, performing S53, and if not, performing S54;

s53, operating the air conditioner according to the user setting;

and S54, the air conditioner relieves the alarm and automatically regulates and controls the humidity.

Further, step S3 includes at least:

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S51;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, the process proceeds to step S4, and if no, the process proceeds to step S51.

Preferably, step S3 includes:

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S51;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step S303, otherwise, go to step S51;

s303, judging whether the change value delta RH of the relative humidity in unit time is smaller than the maximum preset change value delta RH or not_MaxIf yes, go to step S304, otherwise go to step S305;

s304, judging whether the relative humidity change value delta RH in unit time is larger than the minimum preset change value delta RH or not_MinIf yes, go to step S4, otherwise, go to step S305;

s305, according to the relative humidity change value delta RH in unit time, carrying out numerical compensation on the current relative humidity RH to obtain the compensated relative humidity RH_{Supplement device}；

S306, determination of RH_{Supplement device}Whether or not it is less than the maximum preset humidity RH_MaxIf yes, go to step S307, otherwise go to step S51;

s307, determining RH_{Supplement device}Whether or not it is greater than the minimum preset humidity RH_MinIf yes, the process proceeds to step S4, and if no, the process proceeds to step S51.

Preferably, in step S54, when the air conditioner automatically adjusts and controls the humidity, the method includes the following steps:

p1, starting the dehumidification unit, dehumidifying to a first rated time T1, closing the dehumidification unit, and returning to the step S2;

p2, starting the humidifying unit, humidifying to a first rated time T1, closing the humidifying unit, and returning to the step S2;

p3, starting the dehumidification unit, dehumidifying to a second rated time T2, closing the dehumidification unit, and returning to the step S2;

p4, starting the humidifying unit, humidifying to a second rated time T2, closing the humidifying unit, and returning to the step S2;

accordingly, in step S54:

if the result of the determination in step S3 is RH ≧ RH_MaxThe corresponding air conditioning process is P1;

if the result of the determination in step S3 is RH ≦ RH_MinThe corresponding air conditioning process is P2;

if the determination result in step S3 is RH_{Supplement device}≥RH_MaxThe corresponding air conditioning process is P3;

if the determination result in step S3 is RH_{Supplement device}≤RH_MinThe corresponding air conditioning process is P4.

Further, a control method of an intelligent air conditioner includes:

m1, operating an air conditioner;

m2, detecting the current relative humidity RH;

m3, judging whether the current relative humidity RH is less than the maximum preset humidity RH or not_MaxIf yes, go to step M4, otherwise go to step M6;

m4, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step M5, otherwise go to step M7;

m5, keeping the current running state of the air conditioner;

m6, alarming, starting the dehumidification unit, dehumidifying to rated time, closing the dehumidification unit, and returning to the step M2;

m7, alarming, starting the humidifying unit, humidifying to the rated time, closing the humidifying unit, and returning to the step M2.

An intelligent air conditioner, which adopts the control method of the intelligent air conditioner, the intelligent air conditioner comprises a humidity detection device and a central processing unit, the humidity detection device is configured at the air outlet of the air conditioner, and the control method comprises the following steps:

the control panel is used for processing the humidity information;

the probe is connected with the control panel and used for detecting the humidity;

the signal line is connected with the control panel, and the humidity detection device is connected with the central processing unit through the signal line.

Further, the intelligent air conditioner further comprises:

the time module is connected with the central processing unit and is used for processing time related information;

the communication module is connected with the central processing unit and is connected with the user terminal in a wireless communication mode;

the storage module is connected with the central processing unit and used for storing the humidity related information;

the alarm module is connected with the central processing unit and used for giving an alarm;

the intelligent air conditioner is also provided with:

the humidifying unit is connected with the central processing unit and is used for humidifying;

and the dehumidifying unit is connected with the central processing unit and is used for dehumidifying.

Compared with the prior art, the invention provides the intelligent air conditioner and the control method thereof, which can detect the air humidity of a room in real time and alarm when the environment humidity is not suitable; the air conditioner automatically regulates and controls the air humidity of the room, or a user regulates and controls the air humidity of the air conditioner through an air conditioner remote controller or a user terminal, so that the air quality and the comfort of the room are improved, and the influence on human health caused by the unsuitable air humidity of the room is avoided.

In addition, the invention analyzes the current air humidity change condition of the room, can carry out corresponding dehumidification or humidification process in advance, improves the intelligent degree of the air conditioner in the humidity adjusting process, and avoids the humidity adjusting lag caused by overlarge fluctuation range of the air humidity.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of an intelligent air conditioner control method according to the present invention;

FIG. 2 is a schematic diagram illustrating a method for controlling an intelligent air conditioner according to the present invention;

FIG. 3 is a method diagram illustrating an intelligent air conditioner control method according to the present invention;

FIG. 4 is a schematic diagram illustrating another method of controlling an intelligent air conditioner according to the present invention;

fig. 5 is a schematic structural diagram of an intelligent air conditioner according to the present invention;

fig. 6 is a schematic structural diagram of a humidity detection device of an intelligent air conditioner according to the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present invention. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

The present invention will be described in detail below by way of examples.

Example 1

As shown in fig. 1, a control method of an intelligent air conditioner includes:

s1, operating an air conditioner;

s2, detecting humidity information;

s3, judging whether the humidity information meets the preset condition, if so, performing S4, and if not, performing S5;

s4, keeping the current running state of the air conditioner;

and S5, alarming and controlling the humidity correspondingly.

In order to solve the problem that the existing air conditioner lacks intelligent humidity detection, alarm and regulation functions, a humidity detection device is arranged in the air conditioner, after the air conditioner runs, the humidity detection device detects the humidity information of a room in real time, the air conditioner judges whether the humidity information meets preset conditions, if so, the current air humidity of the room does not need to be regulated, and the air conditioner only needs to keep the current running state; if not, the air conditioner gives an alarm to inform a user; meanwhile, the air conditioner can automatically regulate and control the humidity, or a user can regulate and control the humidity of the air conditioner through an air conditioner remote controller or a user terminal.

In the embodiment, by the control method, the air conditioner detects the air humidity of a room in real time and gives an alarm when the environmental humidity is not appropriate; the air conditioner can automatically regulate and control the air humidity of the room, or a user can regulate and control the air humidity of the air conditioner through an air conditioner remote controller or a user terminal, so that the air quality and the comfort of the room are improved, and the influence on human health caused by the fact that the air humidity of the room is not appropriate is avoided.

Example 2

As shown in fig. 1 to 3, in order to further explain the control method of the intelligent air conditioner in the present invention, the present embodiment provides a control method of an intelligent air conditioner, including:

s1, operating an air conditioner;

s2, detecting humidity information;

s3, judging whether the humidity information meets the preset condition, if so, performing S4, and if not, performing S51;

s4, keeping the current running state of the air conditioner;

s51, alarming and lasting for a preset time;

s52, judging whether the user performs manual regulation or not during the alarm period, if so, performing S53, and if not, performing S54;

s53, operating the air conditioner according to the user setting;

and S54, the air conditioner relieves the alarm and automatically regulates and controls the humidity.

The humidity information is measured by a humidity detection device and at least comprises the current relative humidity RH and a relative humidity change value delta RH in unit time.

In step S3, the preset conditions at least include:

whether the current relative humidity RH is less than the maximum preset humidity RH_Max；

Whether the current relative humidity RH is greater than the minimum preset humidity RH_Min；

Maximum predetermined humidity RH_MaxAnd a minimum preset humidity RH_MinThe preset information of the air conditioner can be preset by an air conditioner manufacturer before the air conditioner leaves a factory, or can be set by a user.

Accordingly, step S3 includes at least:

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S51;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, the process proceeds to step S4, and if no, the process proceeds to step S51.

In the process from step S51 to step S54, the preset time period is preset information of the air conditioner, and may be preset by an air conditioner manufacturer before the air conditioner leaves the factory, or may be set by a user. In the alarming process of the air conditioner, the alarming display can be carried out through a display lamp panel of the air conditioner, or the user is prompted in a voice mode, or the alarming information is sent to a user terminal; preferably, the preset time of the air conditioner alarm is 30 seconds, if the user performs manual regulation and control through an air conditioner remote controller or a mobile terminal within 30 seconds, the air conditioner operates according to the setting of the user, and if the user does not perform manual regulation and control within 30 seconds, the air conditioner removes the alarm and automatically regulates and controls the humidity.

In step S54, in the process of automatically controlling humidity by the air conditioner, if the result of the determination in step S3 is RH ≧ RH_MaxIf yes, the dehumidification unit is started, dehumidification is carried out for the rated time, the dehumidification unit is closed, and the step S2 is returned; if the determination result of step S3 is RH ≦ RH_MinIf yes, the humidifying unit is turned on, the humidifying is carried out for the rated time, the humidifying unit is turned off, and the step S2 is returned to

Example 3

As shown in fig. 3, in order to implement an intelligent humidity control process of an air conditioner, the embodiment provides a control method of an intelligent air conditioner, including:

m1, operating an air conditioner;

m2, detecting the current relative humidity RH;

m3, judging whether the current relative humidity RH is less than the maximum preset humidity RH or not_MaxIf yes, go to step M4, otherwise go to step M6;

m4, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step M5, otherwise go to step M7;

m5, keeping the current running state of the air conditioner;

m6, alarming, starting the dehumidification unit, dehumidifying to rated time, closing the dehumidification unit, and returning to the step M2;

m7, alarming, starting the humidifying unit, humidifying to the rated time, closing the humidifying unit, and returning to the step M2.

In the control method, the judgment process of the steps M3 and M4 is carried out when RH is higher than RH_Min＜RH＜RH_MaxIf the current air humidity meets the preset condition of the air conditioner, the current air humidity of the room does not need to be regulated, and the air conditioner only needs to keep the current running state; when RH is more than or equal to RH_MaxWhen the humidity is higher, the dehumidification process is needed; when RH is equal to_MinWhen the humidity is more than or equal to RH, the current air humidity is lower, and a humidification process is needed.

In step M6 and step M7, the alarm process is consistent with that in embodiment 2, and the user can perform manual control during the alarm process.

If the user does not manually regulate and control the air conditioner, when the air conditioner needs to dehumidify, the dehumidification unit is started to dehumidify to the rated time, the dehumidification unit is closed, and the dehumidification process is finished; when humidification is needed, the humidification unit is started to humidify for a rated time, the humidification unit is closed, and the humidification process is finished. After the dehumidification or humidification process is finished, the air conditioner performs the step M2 again, and continues to detect the indoor air humidity in real time.

In addition, in order to avoid interrupting the current operation mode of the air conditioner, the air conditioner is separately provided with a dehumidifying unit and a humidifying unit, and when the air conditioner is in a heating or cooling mode, an independent humidity adjusting process can be carried out through the dehumidifying unit or the humidifying unit.

Example 4

In order to increase the degree of intelligence of the intelligent air conditioner in the humidity adjustment process, the method is further described on the basis of embodiment 2, wherein in step S3, the method includes:

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S51;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step S303, otherwise, go to step S51;

s303, judging whether the change value delta RH of the relative humidity in unit time is smaller than the maximum preset change value delta RH or not_MaxIf yes, go to step S304, otherwise go to step S305;

s304, judging whether the relative humidity change value delta RH in unit time is larger than the minimum preset change value delta RH or not_MinIf yes, go to step S4, otherwise, go to step S305;

s305, according to the relative humidity change value delta RH in unit time, carrying out numerical compensation on the current relative humidity RH to obtain the compensated relative humidity RH_{Supplement device}；

S306, determination of RH_{Supplement device}Whether or not it is less than the maximum preset humidity RH_MaxIf yes, go to step S307, otherwise go to step S51;

s307, determining RH_{Supplement device}Whether or not it is greater than the minimum preset humidity RH_MinIf yes, the process proceeds to step S4, and if no, the process proceeds to step S51.

When the step S3 is executed, the judgment result in the step S3 is RH_Min＜RH＜RH_MaxThen, the air conditioner further judges the change value delta RH of the relative humidity in unit time, and when the change value delta RH is used_Min＜△RH＜△RH_MaxWhen the air conditioner is in operation, the fluctuation of the current air humidity is small, the current air humidity of a room does not need to be regulated, and the air conditioner only needs to keep the current operation state; when Δ RH is ≧ Δ RH_MaxOr Δ RH_MinWhen the humidity is more than or equal to delta RH, the fluctuation of the current air humidity is larger, and the air conditioner needs to further process corresponding humidity information;

in the humidity compensation process, the air conditioner processes the current relative humidity RH and the relative humidity change value delta RH in unit time through a humidity compensation program to obtain the compensated relative humidity RH_{Supplement device}And to RH_{Supplement device}Further judge when RH is present_Min＜RH_{Supplement device}＜RH_MaxDescription of compensated relative humidityIf the preset conditions are still met, the current air humidity of the room does not need to be regulated, and the air conditioner only needs to keep the current running state; when RH is equal to_{Supplement device}≥RH_MaxWhen the humidity rises too much, the dehumidification process needs to be carried out in advance; when RH is equal to_Min≥RH_{Supplement device}When the humidity is too large, the current air humidity needs to be humidified in advance;

the humidity compensation program is an air conditioner preset program, and is set by an air conditioner manufacturer before the air conditioner leaves a factory.

Through the specific processing procedure of the step S3, the change situation of the current air humidity of the room is analyzed, the corresponding dehumidification or humidification process can be performed in advance, the intelligent degree of the air conditioner in the humidity adjusting process is improved, and the humidity adjusting lag caused by overlarge fluctuation range of the air humidity is avoided.

In step S54, when the air conditioner automatically adjusts and controls the humidity, the method includes the following steps:

p1, starting the dehumidification unit, dehumidifying to a first rated time T1, closing the dehumidification unit, and returning to the step S2;

p2, starting the humidifying unit, humidifying to a first rated time T1, closing the humidifying unit, and returning to the step S2;

p3, starting the dehumidification unit, dehumidifying to a second rated time T2, closing the dehumidification unit, and returning to the step S2;

p4, the humidifying unit is started to humidify to the second rated time T2, the humidifying unit is closed, and the step S2 is returned.

When the air conditioner automatically controls the humidity without manual control by the user, that is, in step S54:

if the result of the determination in step S3 is RH ≧ RH_MaxThe corresponding air conditioning process is P1;

if the result of the determination in step S3 is RH ≦ RH_MinThe corresponding air conditioning process is P2;

if the determination result in step S3 is RH_{Supplement device}≥RH_MaxThe corresponding air conditioning process is P3;

if the judgment result in the step S3 is positiveIs RH_{Supplement device}≤RH_MinThe corresponding air conditioning process is P4.

In addition, as shown in fig. 4, another control method for an intelligent air conditioner is also provided in this embodiment, which omits an alarm process, i.e., the processes of steps S51, S52, and S53, and the air conditioner is performed in an automated manner during the whole process of humidity control, and includes:

s1, operating an air conditioner;

s2, detecting the current relative humidity RH and the relative humidity change value delta RH in unit time;

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S541;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step S303, otherwise, go to step S542;

s303, judging whether the change value delta RH of the relative humidity in unit time is smaller than the maximum preset change value delta RH or not_MaxIf yes, go to step S304, otherwise go to step S305;

s304, judging whether the relative humidity change value delta RH in unit time is larger than the minimum preset change value delta RH or not_MinIf yes, go to step S4, otherwise, go to step S305;

s305, according to the relative humidity change value delta RH in unit time, carrying out numerical compensation on the current relative humidity RH to obtain the compensated relative humidity RH_{Supplement device}；

S306, determination of RH_{Supplement device}Whether or not it is less than the maximum preset humidity RH_MaxIf yes, go to step S307, otherwise go to step S543;

s307, determining RH_{Supplement device}Whether or not it is greater than the minimum preset humidity RH_MinIf yes, go to step S4, otherwise, go to step S544;

s4, the air conditioner keeps running in the current running state;

s541, starting the dehumidification unit, dehumidifying to the first rated time T1, closing the dehumidification unit, and returning to the step S2;

s542, turning on the humidifying unit, humidifying to the first rated time T1, turning off the humidifying unit, and returning to the step S2;

s543, starting the dehumidification unit, dehumidifying to the second rated time T2, closing the dehumidification unit, and returning to the step S2;

and S544, turning on the humidifying unit, humidifying to the second rated time T2, turning off the humidifying unit, and returning to the step S2.

According to the control method, the air conditioner is carried out in an automatic mode in the whole process of the humidity regulation process, an alarm process is not needed, the intelligent degree of the air conditioner is improved, and the disturbance to a user in the humidity regulation process is reduced.

Example 5

As shown in fig. 5 to 6, an intelligent air conditioner using the control method of the intelligent air conditioner, the intelligent air conditioner including a humidity detection device and a central processing unit, the humidity detection device being disposed at an air outlet of the air conditioner, includes:

the control panel is used for processing humidity information, and the humidity information at least comprises current relative humidity RH and a relative humidity change value delta RH in unit time;

the probe is connected with the control panel and used for detecting the humidity;

the signal line is connected with the control panel, and the humidity detection device is connected with the central processing unit through the signal line.

The intelligent air conditioner further comprises:

the time module is connected with the central processing unit and is used for processing time related information;

the storage module is connected with the central processing unit and used for storing the humidity related information; wherein, the information stored by the storage module at least comprises: maximum predetermined humidity RH_MaxMinimum preset humidity RH_MinMaximum predetermined variation value Δ RH_MaxMinimum preset variation value Δ RH_MinThe device comprises a preset time length, a first rated time, a second rated time and a humidity compensation program.

The alarm module is connected with the central processing unit and used for giving an alarm;

the communication module is connected with the central processing unit and is connected with the user terminal in a wireless communication mode; preferably, the user terminal is a device with a communication function, such as a mobile phone, a computer, an intelligent bracelet, and an intelligent watch, which is convenient for a user to carry.

In addition, the wireless communication process between the air conditioner and the user terminal is realized through a wireless communication network, and comprises any one of a 3G network, a 4G network, a Wi-Fi (802.11) network, a Wi-Max (802.16) network, Bluetooth communication, a ZigBee network and a Frequency Hopping Spread Spectrum (FHSS) radio network.

The intelligent air conditioner is also provided with: the humidifying unit is connected with the central processing unit and is used for humidifying; the dehumidification unit is connected with the central processing unit and is used for dehumidifying; the dehumidification unit and the humidification unit are arranged on the air conditioner independently, and when the air conditioner is in heating or refrigerating modes, an independent humidity adjusting process can be performed through the dehumidification unit or the humidification unit, so that the humidity adjusting process can be completed without interrupting the current operation mode of the air conditioner.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (4)

1. A control method of an intelligent air conditioner is characterized by comprising the following steps:

s1, operating an air conditioner;

s2, detecting humidity information;

s3, judging whether the humidity information meets the preset condition, if so, performing S4, and if not, performing S5;

s4, keeping the current running state of the air conditioner;

s5, alarming and correspondingly controlling the humidity;

in step S5, the method includes:

s51, alarming and lasting for a preset time;

s52, judging whether the user performs manual regulation or not during the alarm period, if so, performing S53, and if not, performing S54;

s53, operating the air conditioner according to the user setting;

s54, the air conditioner relieves the alarm and automatically regulates and controls the humidity;

in step S3, the method includes:

s301, judging whether the current relative humidity RH is smaller than the maximum preset humidity RH or not_MaxIf yes, go to step S302, otherwise go to step S51;

s302, judging whether the current relative humidity RH is larger than the minimum preset humidity RH or not_MinIf yes, go to step S303, otherwise, go to step S51;

s303, judging whether the change value delta RH of the relative humidity in unit time is smaller than the maximum preset change value delta RH or not_MaxIf yes, go to step S304, otherwise go to step S305;

s304, judging whether the relative humidity change value delta RH in unit time is larger than the minimum preset change value delta RH or not_MinIf yes, go to step S4, otherwise, go to step S305;

s305, according to the relative humidity change value delta RH in unit time, carrying out numerical compensation on the current relative humidity RH to obtain the compensated relative humidity RH_{Supplement device}；

S306, determination of RH_{Supplement device}Whether or not it is less than the maximum preset humidity RH_MaxIf yes, go to step S307, otherwise go to step S51;

s307, determining RH_{Supplement device}Whether or not it is greater than the minimum preset humidity RH_MinIf yes, the process proceeds to step S4, and if no, the process proceeds to step S51.

2. The method as claimed in claim 1, wherein when the air conditioner automatically controls the humidity in step S54, the method includes the following steps:

p1, starting the dehumidification unit, dehumidifying to a first rated time T1, closing the dehumidification unit, and returning to the step S2;

p2, starting the humidifying unit, humidifying to a first rated time T1, closing the humidifying unit, and returning to the step S2;

p3, starting the dehumidification unit, dehumidifying to a second rated time T2, closing the dehumidification unit, and returning to the step S2;

p4, starting the humidifying unit, humidifying to a second rated time T2, closing the humidifying unit, and returning to the step S2;

accordingly, in step S54:

if the result of the determination in step S3 is RH ≧ RH_MaxThe corresponding air conditioning process is P1;

if the result of the determination in step S3 is RH ≦ RH_MinThe corresponding air conditioning process is P2;

if the determination result in step S3 is RH_{Supplement device}≥RH_MaxThe corresponding air conditioning process is P3;

if the determination result in step S3 is RH_{Supplement device}≤RH_MinThe corresponding air conditioning process is P4.

3. An intelligent air conditioner, which is characterized in that the intelligent air conditioner comprises a humidity detection device and a central processing unit, wherein the humidity detection device is configured at an air outlet of the air conditioner, and the control method of the intelligent air conditioner comprises the following steps:

the control panel is used for processing the humidity information;

the probe is connected with the control panel and used for detecting the humidity;

the signal line is connected with the control panel, and the humidity detection device is connected with the central processing unit through the signal line.

4. The intelligent air conditioner according to claim 3, further comprising:

the time module is connected with the central processing unit and is used for processing time related information;

the communication module is connected with the central processing unit and is connected with the user terminal in a wireless communication mode;

the storage module is connected with the central processing unit and used for storing the humidity related information;

the alarm module is connected with the central processing unit and used for giving an alarm;

the intelligent air conditioner is also provided with:

the humidifying unit is connected with the central processing unit and is used for humidifying;

and the dehumidifying unit is connected with the central processing unit and is used for dehumidifying.

Images