CN104930650A - Intelligent indoor temperature and humidity control method and system - Google Patents

Abstract

The invention provides an intelligent indoor temperature and humidity control method and an intelligent indoor temperature and humidity control system. The intelligent indoor temperature and humidity control method comprises the following steps: selecting an indoor target temperature value T according to an indoor staff state and a light shade state; respectively controlling an air conditioner and a humidifier to operate; generating a target humidity value H according to the target temperature value T in the system; controlling a running condition of the humidifier according to the current indoor humidity and an air conditioner available state; judging a size relationship of the current indoor humidity Ha and the target humidity value H; and automatically regulating and running the humidifier according to the actual dehumidifying capacity of an air conditioner. According to the intelligent indoor temperature and humidity control method and the intelligent indoor temperature and humidity control system, air conditioner equipment and humidifier equipment are mutually linked, so that the humidifier generates the target humidity value according to the indoor target temperature value, is controlled in the running condition according to the current indoor humidity and the air conditioner available state, and automatically regulates and runs according to the actual dehumidifying capacity of the air conditioner. The indoor humidity fluctuation is reduced, so that not only is application comfort of a user guaranteed, but also the air conditioner and the humidifier are in the most energy-saving state.

Description

A kind of Intelligent indoor control of temperature and humidity method and system

Technical field

The present invention relates to airconditioning control field, particularly a kind of Intelligent indoor control of temperature and humidity method and system.

Background technology

During existing air-conditioning uses, drying is one of air-conditioning products maximum pain spot in use, and in order to using air-condition is more comfortable, many consumers also can open humidifier while using air-condition.Air-conditioning has the function of dehumidifying, and humidifier then has the function of humidification.Therefore, air-conditioning and humidifier conbined usage, can obtain more comfortable experience.

At night in summer, outdoor temperature reduces, and the indoor needed between people's sleep period want high relatively, and air conditioner refrigerating running ability can reduce, and many domestic air conditioning products also all " to relax and sleep " pattern with " sleep ", allow nighttime sleep time air-conditioning use more comfortable.The humiture of air is experienced and is undivided, and air-conditioning price is relatively expensive and the product of power consumption, in order to make air-conditioning more energy-conservation, a lot of engineer can consider to utilize humidity, allow the comfort that air-conditioning reaches identical at a higher temperature, like this while maintenance comfort, the energy consumption of air-conditioning can be reduced.

But in fact, if mutually talked with by thing connection technology between air-conditioning and humidifier, the control of indoor humiture can be more accurate, and the experience of user can be more comfortable, and air-conditioning and humidifier can be more energy-conservation simultaneously.

Summary of the invention

The invention provides a kind of Intelligent indoor control of temperature and humidity method and system, experience poor technical problem to solve above-mentioned air conditioner user humiture.

In order to solve the problems of the technologies described above, the invention provides a kind of Intelligent indoor control of temperature and humidity method, comprising the following steps:

Step S100, according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Point

Zhi Hang step S200 and step S500;

Step S200, air-conditioning runs automatically according to target temperature value T;

Step S300, judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, performs step S400; Otherwise return step S200;

Step S400, air-conditioning switches to energy saver mode to operate, and terminates;

Step S500, generates target humidity value H according to target temperature value T;

Step S600, controls humidifier working order according to current indoor humidity and air-conditioning upstate;

Step S700, judges the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, performs step S800; Otherwise return step S600;

Step S800, humidifier regulates operation automatically according to the actual dehumidifier ability of air-conditioning.

The invention has the beneficial effects as follows: the present invention is linked mutually by air-conditioning equipment and humidifier devices, air-conditioning change according to the personnel state of indoor, current indoor temperature automatic conditioning chamber internal object temperature; Humidifier generates target humidity value according to indoor objects temperature value, controls humidifier working order, and automatically regulate operation according to the actual dehumidifier ability of air-conditioning according to current indoor humidity and air-conditioning upstate.Allow indoor humidity reduce fluctuation, namely ensure the comfortableness that user uses air-conditioning and humidifier can be allowed again to be all in the most energy-conservation state.

Further, in described step S100, described indoor occupant state comprises,

Someone state, continues to find indoor human body signal in 2 minutes;

People, temporarily from state, continues within 10 minutes, to find that indoor are without human body signal;

People leaves state, continues within 60 minutes, to find that indoor are without human body signal;

Described bright and dark light state comprises,

Bright state, indoor light intensity > 0.3lux;

Dim dark state, indoor light intensity≤0.3lux.

Adopt the beneficial effect of above-mentioned further scheme to be: by personnel state in accurate delimit chamber and bright and dark light state, the temperature guaranteeing to control air-conditioning controls and the accuracy of humid control of humidifier.

Further, when described indoor occupant state behave temporary from state time, Tb=T0+2 DEG C, wherein, Tb is system recommendation target temperature value, and T0 is a front indoor objects temperature value;

When state is left in described indoor occupant state behaviour, air-conditioning is closed automatically;

When described indoor occupant state is for having people's state and bright and dark light state to be bright state, Tb=T0;

When described indoor occupant state is for having people's state and bright and dark light state to be dim dark state, air-conditioning enters sleep pattern.

The beneficial effect of above-mentioned further scheme is adopted to be: to carry out by different indoor occupant states and optical fiber light and shade state the running status that accurate selective system recommends target temperature value and control air-conditioning, improve the comfort level of human body.

Further, indoor objects temperature value T in described step S100, is selected to comprise,

When the operational mode of air-conditioning is automatic mode, T=Tb;

When air conditioning operating mode is manual mode, T=Tu, wherein, Tu sets target temperature for user.

The beneficial effect of above-mentioned further scheme is adopted to be: further by the operational mode of air-conditioning to determine indoor objects temperature value, accurately can reflect the real use state of air-conditioning.

Further, the corresponding relation in described step S500 between target temperature value T and target humidity value H is:

As 17 DEG C≤T < 26 DEG C, then H=55%rh; As 26 DEG C≤T≤30 DEG C, then H=45%rh; Wherein, H is target humidity value; Wherein, %rh is the unit of relative humidity.

The beneficial effect of above-mentioned further scheme is adopted to be: different target temperature values selects different target humidity values, enables humidity under different temperature conditions meet the good comfort level of human body.

Further, described in described step S600, air-conditioning upstate comprises,

Upstate is that air-conditioning is in " being energized and start " state or " automatic mode of energising shutdown " state;

Down state is that air-conditioning is in " power-off " state or " artificial mode of energising shutdown " state.

The beneficial effect of above-mentioned further scheme is adopted to be: the upstate accurately limiting air-conditioning, the humid control for humidifier provides controlled condition accurately of knowing clearly, and improves accuracy and the validity of humid control.

Further, described step S600 comprises,

When described air-conditioning upstate is upstate,

During Ha < (H-5) %rh, humidifier starts humidification;

During Ha < (H-10) %rh, one grade of operation heightened by humidifier;

During Ha > (H+5) %rh, one grade of operation turned down by humidifier;

During Ha > (H+10) %rh, humidifier stops humidification;

When described air-conditioning upstate is down state,

During T=Tb, during Ha < (H-5) %rh, humidifier is heightened to the most high-grade humidification; During Ha > (H+5) %rh, humidifier stops humidification; Wherein, Ha is current indoor humidity, and H is target humidity value.

Adopt the beneficial effect of above-mentioned further scheme to be: to select different humidification gears by the difference range accurately limiting current indoor humidity and target humidity value, meet the accuracy that different humidity regulates.

Further, described step S800 comprises,

As DeP < D1, humidifier is adjusted to first grade of operation;

As D1≤DeP < D2, humidifier is adjusted to second gear and runs;

As DeP > D2, humidifier is adjusted to third gear and runs;

As DeP > Dn, humidifier is adjusted to (n+1)th grade of operation; Wherein, DeP is the actual dehumidifier ability of air-conditioning, and D1 < D2 < Dn, Dn is n-th grade of humidification capability of humidifier, and described n is the natural number being not equal to 1 and 2.

Adopt the beneficial effect of above-mentioned further scheme to be: according to regulate the actual dehumidifier ability of air-conditioning come automatic conditioning moisturer gear, can guarantee that indoor humidity remains at comfortable and default level.

Further, also comprise before described step S100 and judge whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, if so, perform step S100; Otherwise, do not carry out indoor temperature, humid control.

The beneficial effect of above-mentioned further scheme is adopted to be: control of temperature and humidity first judges whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, and guarantees Temperature and Humidity Control in correct priming chamber, avoids maloperation in priming chamber.The present invention also provides a kind of Intelligent indoor control of temperature and humidity system, it is characterized in that, comprise indoor objects thermal creep stress module, temperature adjustment module, the first judge module, operational mode handover module, target humidity generation module, operating condition selection module, the second judge module and humidifier automatic control module

Described indoor objects thermal creep stress module, for according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Call described temperature adjustment module and described target humidity generation module respectively;

Described temperature adjustment module, runs according to target temperature value T automatically for air-conditioning;

Described first judge module, judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, calls described operational mode handover module; Otherwise call described first judge module;

Described operational mode handover module, switches to energy saver mode to operate for air-conditioning;

Described target humidity generation module, for generating target humidity value H according to target temperature value T;

Described operating condition selects module, for controlling humidifier working order according to current indoor humidity and air-conditioning upstate;

Described second judge module, for judging the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, as Ha=H, calls described humidifier automatic control module; Otherwise call described operating condition and select module;

Described humidifier automatic control module, regulates operation for humidifier automatically according to the actual dehumidifier ability of air-conditioning.

The beneficial effect of control system of the present invention is: mutually linked by air-conditioning equipment and humidifier devices, and air-conditioning is according to indoor objects thermal creep stress module real time temperature automatic conditioning chamber internal object temperature; Humidifier generates target humidity value according to target humidity generation module, controls humidifier working order, and automatically regulate operation according to the actual dehumidifier ability of air-conditioning according to current indoor humidity and air-conditioning upstate.Allow indoor humidity reduce fluctuation, namely ensure the comfortableness that user uses air-conditioning and humidifier can be allowed again to be all in the most energy-conservation state.

Accompanying drawing explanation

Fig. 1 is the control flow chart of the embodiment one of control method of the present invention,

Fig. 2 is the control flow chart of the embodiment that under air-conditioning upstate of the present invention, humidification controls,

Fig. 3 is the control flow chart of the embodiment that under air-conditioning down state of the present invention, humidification controls,

Fig. 4 is the structured flowchart of control system embodiment one of the present invention,

Fig. 5 is the control device structured flowchart of first embodiment of the invention.

In accompanying drawing, the list of parts representated by each label is as follows:

1, computing module, 2, humidifier, 3, air-conditioner, 4, indoor humidity sensor, 5, indoor temperature transmitter, 6, infrared human body induction module, 100, indoor objects thermal creep stress module, 200, temperature adjustment module, the 300, first judge module, 400, operational mode handover module, 500, target humidity generation module, 600, operating condition select module, the 700, second judge module, 800, humidifier automatic control module, the 900, the 3rd judge module

Detailed description of the invention

Below in conjunction with drawings and embodiments, the present invention is further illustrated.

The control flow chart of the embodiment one of control method of the present invention, see Fig. 1, comprises the following steps.

Judge whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, if so, perform step S100; Otherwise, do not carry out indoor temperature, humid control.

Step S100, according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Point

Zhi Hang step S200 and step S500.

Step S200, air-conditioning runs automatically according to target temperature value T.

Step S300, judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, performs step S400; Otherwise return step S200.

Step S400, air-conditioning switches to energy saver mode to operate, and terminates.

Step S500, generates target humidity value H according to target temperature value T.

Step S600, controls humidifier working order according to current indoor humidity and air-conditioning upstate.

Step S700, judges the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, performs step S800; Otherwise return step S600.

Step S800, humidifier regulates operation automatically according to the actual dehumidifier ability of air-conditioning.

In priming chamber, control of temperature and humidity first judges whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, and guarantees Temperature and Humidity Control in correct priming chamber, avoids maloperation; Mutually linked by air-conditioning equipment and humidifier devices, air-conditioning change according to the personnel state of indoor, current indoor temperature automatic conditioning chamber internal object temperature; Humidifier generates target humidity value according to indoor objects temperature value, controls humidifier working order, and automatically regulate operation according to the actual dehumidifier ability of air-conditioning according to current indoor humidity and air-conditioning upstate.Allow indoor humidity reduce fluctuation, namely ensure the comfortableness that user uses air-conditioning and humidifier can be allowed again to be all in the most energy-conservation state.

Under air-conditioning upstate of the present invention, the control flow chart of the embodiment that humidification controls is see Fig. 2, when air-conditioning upstate is upstate.

During Ha < (H-5) %rh, humidifier starts humidification.

During Ha < (H-10) %rh, one grade of operation heightened by humidifier.

During Ha > (H+5) %rh, one grade of operation turned down by humidifier.

During Ha > (H+10) %rh, humidifier stops humidification.

When air-conditioning upstate is down state.

During T=Tb, during Ha < (H-5) %rh, humidifier is heightened to the most high-grade humidification; During Ha > H+5%rh, humidifier stops humidification; Wherein, Ha is current indoor humidity, and H is target humidity value.

Under air-conditioning down state of the present invention, the control flow chart of the embodiment that humidification controls is see Fig. 3, when air-conditioning upstate is down state.

During T=Tb, during Ha < (H-5) %rh, humidifier is heightened to the most high-grade humidification; During Ha > (H+5) %rh, humidifier stops humidification; Wherein, Ha is current indoor humidity, and H is target humidity value.

Select different humidification gears by the difference range accurately limiting current indoor humidity and target humidity value, meet the accuracy that different humidity regulates.

The structured flowchart being control system embodiment one of the present invention, see Fig. 4, comprises indoor objects thermal creep stress module 100, temperature adjustment module 200, first judge module 300, operational mode handover module 400, target humidity generation module 500, operating condition selection module 600, second judge module 700, humidifier automatic control module 800 and the 3rd judge module 900.

Indoor objects thermal creep stress module 100, for according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Call temperature adjustment module 200 and target humidity generation module 500 respectively;

Temperature adjustment module 200, runs according to target temperature value T automatically for air-conditioning.

First judge module 300, judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, calls operational mode handover module 400; Otherwise call the first judge module 300.

Operational mode handover module 400, switches to energy saver mode to operate for air-conditioning.

Target humidity generation module 500, for generating target humidity value H according to target temperature value T.

Operating condition selects module 600, for controlling humidifier working order according to current indoor humidity and air-conditioning upstate.

Second judge module 700, for judging the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, as Ha=H, calls humidifier automatic control module 800; Otherwise call operating condition and select module 600.

Humidifier automatic control module 800, regulates operation for humidifier automatically according to the actual dehumidifier ability of air-conditioning.

3rd judge module 900, for judging whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, and if so, calls indoor objects thermal creep stress module 100; Otherwise, do not carry out indoor temperature, humid control.

Mutually linked by air-conditioning equipment and humidifier devices, air-conditioning is according to indoor objects thermal creep stress module real time temperature automatic conditioning chamber internal object temperature; Humidifier generates target humidity value according to target humidity generation module, controls humidifier working order, and automatically regulate operation according to the actual dehumidifier ability of air-conditioning according to current indoor humidity and air-conditioning upstate.Allow indoor humidity reduce fluctuation, namely ensure the comfortableness that user uses air-conditioning and humidifier can be allowed again to be all in the most energy-conservation state.

In the first embodiment of the present invention, Intelligent indoor control of temperature and humidity device has its annexation figure of following equipment as shown in Figure 5: infrared human body induction module 6: personnel state in nernst cell; Indoor temperature transmitter 5: for Current Temperatures in sensing chamber; Indoor humidity sensor 4: for current humidity in sensing chamber; Computing module 1: receive indoor occupant situation, humiture situation, equipment operation situation, the operating condition of adjustment air-conditioning and humidifier is mated mutually; Air-conditioner 3 and humidifier 2; Device comprises Intelligent indoor control of temperature and humidity system.

Because indoor temperature transmitter detects that indoor temperature there occurs change, control system performs indoor temperature, humid control; The operational mode of air-conditioning is automatic mode, wherein, T0=25 DEG C, so Tb=T0=25 DEG C, target temperature value T=Tb=25 DEG C; Air-conditioning system is run automatically, and make current indoor temperature Ta and target temperature value T-phase etc., then air-conditioning switches to energy saver mode to operate; System is according to the corresponding relation between target temperature value T and target humidity value H, then H=55%rh; State that air-conditioning is in " automatic mode of energising shutdown ", be upstate, current indoor humidity Ha is 48 < 55%rh, and humidifier starts humidification; When systems axiol-ogy is equal with target humidity value H to current indoor humidity Ha, humidifier regulates operation automatically according to the actual dehumidifier ability of air-conditioning; When wherein the DeP of the actual dehumidifier ability of air-conditioning is=35g/h (quality/hour), humidifier one has five grades, be respectively: the humidification capability D1 of first grade is 10g/h, the humidification capability D2 of second gear is 20g/h, the humidification capability D3 of third gear is 30g/h, the humidification capability D4 of fourth speed is 40g/h, and the humidification capability D5 of fifth speed is 50g/h; Due to D3 < DeP < D4, fourth speed running enabled by humidifier.Guarantee that indoor humidity remains at comfortable and default level.

In describing the invention, it will be appreciated that, term " " center ", " length ", " width ", " on ", D score, " vertically ", " level ", " top ", " end ", the orientation of the instruction such as " interior " or position relationship be based on orientation shown in the drawings or position relationship; be only the present invention for convenience of description and simplified characterization; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature immediately below second feature and tiltedly below, or only represent that fisrt feature level height is less than second feature.

Above the present invention is described in detail from Intelligent indoor control of temperature and humidity method and system, applies specific case herein and principle of the present invention and embodiment are set forth.The explanation of above embodiment just understands core concept of the present invention for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (10)

1. an Intelligent indoor control of temperature and humidity method, is characterized in that, comprises the following steps:

Step S100, according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Perform step S200 and step S500 respectively;

Step S200, air-conditioning runs automatically according to target temperature value T;

Step S300, judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, performs step S400; Otherwise return step S200;

Step S400, air-conditioning switches to energy saver mode to operate, and terminates;

Step S500, generates target humidity value H according to target temperature value T;

Step S600, controls humidifier working order according to current indoor humidity and air-conditioning upstate;

Step S700, judges the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, performs step S800; Otherwise return step S600;

Step S800, humidifier regulates operation automatically according to the actual dehumidifier ability of air-conditioning.

2. Intelligent indoor control of temperature and humidity method according to claim 1, is characterized in that, in described step S100, described indoor occupant state comprises,

Someone state, continues to find indoor human body signal in 2 minutes;

People, temporarily from state, continues within 10 minutes, to find that indoor are without human body signal;

People leaves state, continues within 60 minutes, to find that indoor are without human body signal;

Described bright and dark light state comprises,

Bright state, indoor light intensity > 0.3lux;

Dim dark state, indoor light intensity≤0.3lux.

3. Intelligent indoor control of temperature and humidity method according to claim 2, is characterized in that,

When described indoor occupant state behave temporary from state time, Tb=T0+2 DEG C, wherein, Tb is system recommendation target temperature value, and T0 is a front indoor objects temperature value;

When state is left in described indoor occupant state behaviour, air-conditioning is closed automatically;

When described indoor occupant state is for having people's state and bright and dark light state to be bright state, Tb=T0;

When described indoor occupant state is for having people's state and bright and dark light state to be dim dark state, air-conditioning enters sleep pattern.

4. Intelligent indoor control of temperature and humidity method according to claim 3, is characterized in that, selects indoor objects temperature value T to comprise in described step S100,

When the operational mode of air-conditioning is automatic mode, T=Tb;

When air conditioning operating mode is manual mode, T=Tu, wherein, Tu sets target temperature for user.

5. Intelligent indoor control of temperature and humidity method according to claim 1, it is characterized in that, the corresponding relation in described step S500 between target temperature value T and target humidity value H is:

As 17 DEG C≤T < 26 DEG C, then H=55%rh; As 26 DEG C≤T≤30 DEG C, then H=45%rh; Wherein, H is target humidity value; Wherein, %rh is the unit of relative humidity.

6. Intelligent indoor control of temperature and humidity method according to claim 1 or 5, it is characterized in that, described in described step S600, air-conditioning upstate comprises,

Upstate is that air-conditioning is in " being energized and start " state or " automatic mode of energising shutdown " state;

Down state is that air-conditioning is in " power-off " state or " artificial mode of energising shutdown " state.

7. Intelligent indoor control of temperature and humidity method according to claim 6, it is characterized in that, described step S600 comprises,

When described air-conditioning upstate is upstate,

During Ha < (H-5) %rh, humidifier starts humidification;

During Ha < (H-10) %rh, one grade of operation heightened by humidifier;

During Ha > (H+5) %rh, one grade of operation turned down by humidifier;

During Ha > (H+10) %rh, humidifier stops humidification;

When described air-conditioning upstate is down state,

During T=Tb, during Ha < (H-5) %rh, humidifier is heightened to the most high-grade humidification; During Ha > (H+5) %rh, humidifier stops humidification; Wherein, Ha is current indoor humidity, and H is target humidity value.

8. the Intelligent indoor control of temperature and humidity method according to claim 1 or 6, it is characterized in that, described step S800 comprises,

As DeP < D1, humidifier is adjusted to first grade of operation;

As D1≤DeP < D2, humidifier is adjusted to second gear and runs;

As DeP > D2, humidifier is adjusted to third gear and runs;

As DeP > Dn, humidifier is adjusted to (n+1)th grade of operation; Wherein, DeP is the actual dehumidifier ability of air-conditioning, and D1 < D2 < Dn, Dn is n-th grade of humidification capability of humidifier, and described n is the natural number being not equal to 1 and 2.

9. Intelligent indoor control of temperature and humidity method according to claim 1, it is characterized in that, also comprise before described step S100 and judge whether the change of indoor temperature, humidity goes beyond the scope, and whether indoor occupant state changes, if so, step S100 is performed; Otherwise, do not carry out indoor temperature, humid control.

10. one kind adopts the Intelligent indoor control of temperature and humidity system of the arbitrary described control method of claim 1-9, it is characterized in that, comprise indoor objects thermal creep stress module (100), temperature adjustment module (200), the first judge module (300), operational mode handover module (400), target humidity generation module (500), operating condition selection module (600), the second judge module (700) and humidifier automatic control module (800)

Described indoor objects thermal creep stress module (100), for according to indoor occupant state and bright and dark light condition selecting indoor objects temperature value T; Call described temperature adjustment module (200) and described target humidity generation module (500) respectively;

Described temperature adjustment module (200), runs according to target temperature value T automatically for air-conditioning;

Described first judge module (300), judges the magnitude relationship of current indoor temperature Ta and target temperature value T, as Ta=T, calls described operational mode handover module (400); Otherwise call described first judge module (300);

Described operational mode handover module (400), switches to energy saver mode to operate for air-conditioning;

Described target humidity generation module (500), for generating target humidity value H according to target temperature value T;

Described operating condition selects module (600), for controlling humidifier working order according to current indoor humidity and air-conditioning upstate;

Described second judge module (700), for judging the magnitude relationship of current indoor humidity Ha and target humidity value H, as Ha=H, as Ha=H, calls described humidifier automatic control module (800); Otherwise call described operating condition and select module (600);

Described humidifier automatic control module (800), regulates operation for humidifier automatically according to the actual dehumidifier ability of air-conditioning.