CN104729000A

CN104729000A - Air conditioner and intelligent temperature and humidity regulating method thereof

Info

Publication number: CN104729000A
Application number: CN201310719594.7A
Authority: CN
Inventors: 时斌; 赵永俊; 徐艳丽; 李莎; 徐铭
Original assignee: Haier Group Corp; Qingdao Haier Air Conditioning Electric Co Ltd
Current assignee: Haier Group Corp; Qingdao Haier Air Conditioning Electric Co Ltd
Priority date: 2013-12-23
Filing date: 2013-12-23
Publication date: 2015-06-24
Anticipated expiration: 2033-12-23
Also published as: CN104729000B

Abstract

The invention discloses an air conditioner and an intelligent temperature and humidity regulating method thereof, belongs to the field of air conditioners and temperature controlling methods thereof and aims at solving the problems of single parameter and the like of an existing temperature controlling method of the air conditioner. The intelligent temperature and humidity regulating method of the air conditioner includes that temperature and/or humidity of an environment is detected in real time by a controlling device of the air conditioner, the detected real-time temperature and/or humidity is subjected to comparison with a temperature and humidity reference range table prestored in the controlling device of the air conditioner, and when the environmental temperature and/or humidity is beyond the range of the temperature and humidity reference range table, the air conditioner starts to regulate the environmental temperature and/or humidity until the environmental temperature and/or humidity is within the range of the temperature and humidity reference range table. The air conditioner at least comprises the controlling device, a temperature probe and a humidity probe. The intelligent temperature and humidity regulating method and the air conditioner have the advantages of better user experience, more convenience in use, better achievement of intelligence by one key and wide application range.

Description

Air-conditioning temperature and humidity intelligent control method and air-conditioning

Technical field

The present invention relates to a kind of air-conditioning temperature and humidity intelligent control method and realize the air-conditioning of the method.

Background technology

Air-conditioning is a kind of conventional household electrical appliances, can regulate indoor temperature and humidity, make indoor human living preferably when weather is crossed cold or overheated.Wherein, the temperature of air-conditioning is set with hand and intellectual two kinds an of key.

Existing air-conditioned Based Intelligent Control is only environment temperature and design temperature are compared, and automatically selects heating mode, refrigeration mode or air supply pattern when it is determined that the presence of the temperature difference according to the temperature difference.Intelligent control method has advantage easily and efficiently, but only has temperature for the parameter compared at present, and is by user to carry out the setting of temperature, convenient not.

Summary of the invention

An object of the present invention is to propose a kind of air-conditioning temperature and humidity intelligent control method making indoor more comfortable, easy to use.

Another object of the present invention proposes a kind of reference factor more air-conditioning temperature and humidity intelligent control method.

Another object of the present invention be a kind of humiture is proposed can the air-conditioning of Intelligent adjustment.

For reaching this object, on the one hand, the present invention is by the following technical solutions:

A kind of air-conditioning temperature and humidity intelligent control method, described method is temperature and/or the humidity of the real-time testing environment of control device of air-conditioning, and by the described real-time temperature that detects and/or humidity value compared with the temperature and humidity critical field table in the control device being stored in advance in air-conditioning, when the temperature of environment and/or humidity are positioned at beyond described temperature and humidity critical field table, air-conditioning is started working and to be revised described temperature and/or humidity until the temperature of described environment and/or humidity enter in described temperature and humidity critical field table.

Particularly, described method comprises the steps:

Step 1, in air conditioning control device preset temperature and humidity standard scope table;

After step 2, air-conditioning are started working, control device judges that mode of operation is in manual mode or intellectual status, if be in intellectual status, goes to step 3;

Step 3, control device detect current environmental temperature and humidity value in real time;

Step 4, judge described current environmental temperature and humidity value whether in critical field table, be go to step 3, otherwise go to step 5;

Step 5, unlatching heating mode, refrigeration mode, dehumidification mode and/or humidifying mode also measure current environmental temperature and humidity value in real time, until the current environmental temperature surveyed and humidity value are corrected in critical field table, go to step 3.

Further, the region that described critical field table covers is that in the quadrangle that surrounded by four straight lines, wherein, abscissa is temperature value, and unit is degree Celsius, and ordinate is relative humidity.

Further, the first summit of described quadrangle is (22.8 °, 62.3%), the second summit is (23.5 °, 24.4%), the 3rd summit be (24.5 °, 23.0%) and the 4th summit is (23.5 °, 58.3%); Line between described first summit and described 4th summit is the first limit, line between described first summit and described second summit is Second Edge, line between described second summit and described 3rd summit is the 3rd limit, and the line between described 3rd summit and described 4th summit is the 4th limit.

Further, in described air conditioning control device preset at least two temperature and humidity critical field tables, and according to season difference at one time in only select one of them critical field table.

Further, be preset with in described air conditioning control device winter critical field table and summer critical field table; Wherein,

Described winter critical field table to comprise scope be in the quadrangle that surrounded by four straight lines, first summit of described quadrangle is (19.5 °, 86.5%), the second summit is (20.5 °, 29.3%), the 3rd summit is (24.5 °, 23.0%) the and four summit is (23.5 °, 58.3%); Line between described first summit and described 4th summit is the first limit, line between described first summit and described second summit is Second Edge, line between described second summit and described 3rd summit is the 3rd limit, and the line between described 3rd summit and described 4th summit is the 4th limit;

Described summer critical field table to comprise scope be in the quadrangle that surrounded by four straight lines, first summit of described quadrangle is (22.5 °, 79.5%), the second summit is (23.5 °, 24.4%), the 3rd summit is (27.0 °, 19.8%) the and four summit is (26.0 °, 57.3%); Line between described first summit and described 4th summit is the first limit, line between described first summit and described second summit is Second Edge, line between described second summit and described 3rd summit is the 3rd limit, and the line between described 3rd summit and described 4th summit is the 4th limit.

Particularly, the warm and humid angle value that recording user custom sets also is added current temperature and humidity critical field table, forms new temperature and humidity critical field table; Humiture setting value when the warm and humid angle value of described user habit setting is manual mode.

Further, set condition can be adjusted at any time when mode of operation is in intellectual status, the warm and humid angle value of each adjustment set condition is all carried out record as the warm and humid angle value of user habit setting, control device, according to the warm and humid angle value analysis be recorded, conversion, determines whether to revise current temperature and humidity critical field table and how to revise.

Particularly, timing probe indoor occupant quantity, hale and hearty degree, body temperature, activity and/or surface moisture, as parameter, revise temperature and humidity critical field table according to described parameter.

On the other hand, the present invention is by the following technical solutions:

For realizing an air-conditioning for above-mentioned temperature and humidity intelligent control method, described air-conditioning is at least provided with control device, hygrosensor and hygrosensor; Control device is by the temperature of the real-time testing environment of described hygrosensor, and control device is by the humidity of the real-time testing environment of described hygrosensor.

Air-conditioning temperature and humidity intelligent control method of the present invention presets preference temperature and humidity regions in air-conditioning, automatically selects heating mode, refrigeration mode, air supply pattern, humidifying mode or dehumidification mode when environment temperature and/or humidity are not in setting regions; Temperature and humidity is all classified as reference factor, makes user feel more comfortable; Can revise existing suitable humiture region according to the concrete condition (old the children prime of life, body temperature, activity, surface moisture etc.) of the use habit of user or user.

Air-conditioning of the present invention can realize above-mentioned temperature and humidity intelligent control method, and Consumer's Experience is better, uses more convenient, decreases the operation of user, achieves a key intelligence better, even if remote controller is lost or temporarily be can not find the use also not affecting air-conditioning.

Accompanying drawing explanation

Fig. 1 is the preferred embodiment of the present invention one flow chart;

Fig. 2 is that the critical field preset in the preferred embodiment of the present invention one represents intention;

Fig. 3 is that the critical field preset in the preferred embodiment of the present invention two represents intention.

Detailed description of the invention

Technical scheme of the present invention is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

Preferred embodiment one:

This preferred embodiment provides a kind of air-conditioning temperature and humidity intelligent control method, the method is temperature and/or the humidity of the real-time testing environment of control device of air-conditioning, and by the described real-time temperature that detects and/or humidity value compared with the temperature and humidity critical field table in the control device being stored in advance in air-conditioning, when the temperature of environment and/or humidity are positioned at beyond temperature and humidity critical field table, air-conditioning is started working and to be revised temperature and/or humidity, until the temperature of environment and/or humidity enter in temperature and humidity critical field table.

As shown in Figure 1, the method comprises the steps:

Step 1, in air conditioning control device preset temperature and humidity standard scope table; This step has cured when air-conditioning dispatches from the factory in control device, can adjust in follow-up use according to the use habit of user and using state.

After step 2, air-conditioning are started working, control device judges that mode of operation is in manual mode or intellectual status.When air-conditioning is in manual mode, air conditioning control device only accepts the instruction from remote controller, realizes the function of common air-conditioning.Enter priority principle after can obeying, during each new start, be all in the state before last shutdown; Also can be the automatic switchover of timing, such as, set and within one hour, automatically switch to intellectual status etc. after manual mode.3 are gone to step when air-conditioning is in intellectual status.

Step 3, control device detect current environmental temperature and humidity value in real time; Can also with infrared detector timing probe indoor occupant quantity, hale and hearty degree, body temperature, activity and/or surface moisture etc. as parameter, the critical field table default according to the revision of these parameters.

Step 4, judge current environmental temperature and humidity value whether in critical field table, be go to step 3, otherwise go to step 5.

As shown in Figure 2, different according to season, it is default in air conditioning control device that two temperature and humidity critical field tables---critical field table in winter (region that in figure, solid line surrounds) and critical field table in summer (region that in figure, dotted line surrounds), each moment only selects wherein some critical field tables.Can be by the date to the judgement in season, measure outdoor temperature, be connected to the methods such as weather site by internet and come.Each critical field table is surrounded by four straight lines, four summits counterclockwise successively called after first summit to the 4th summit.The abscissa of each point is temperature value, and unit is degree Celsius, and ordinate is relative humidity.

Symbolize critical field table in winter comprise the quadrangle of scope the first summit Pw1 be (19.5 °, 86.5%), the second summit Pw2 is (20.5 °, 29.3%), the 3rd summit Pw3 is (24.5 °, 23.0%) and the 4th summit Pw4 is (23.5 °, 58.3%).Line between first summit Pw1 and the 4th summit Pw4 is the first limit Yw1, line between first summit Pw1 and the second summit Pw2 is Second Edge Yw2, line between second summit Pw2 and the 3rd summit Pw3 is the 3rd limit Yw3, and the line between the 3rd summit Pw3 and the 4th summit Pw4 is the 4th limit Yw4.The point be on four edges is also in this standard scope table at last.

So, humidity RHcmft scope suitable during winter:

When temperature be [19.5,20.5) time, Yw2 < RHcmft < Yw1;

When temperature be [20.5,23.5) time, Yw3 < RHcmft < Yw1;

When temperature is [23.5,24.5], Yw3 < RHcmft < Yw4.Wherein,

The linear equation of Yw1 is: y=Kw1 (x-Pw1.x)+Pw1.y, wherein,

The linear equation of Yw2 is: y=Kw2 (x-Pw1.x)+Pw1.y, wherein,

The linear equation of Yw3 is: y=Kw3 (x-Pw2.x)+Pw2.y, wherein,

The linear equation of Yw4 is: y=Kw4 (x-Pw4.x)+Pw4.y, wherein,

In above-mentioned formula, Pw1.x represents the abscissa value of the first summit Pw1, and Pw1.y represents the ordinate value of the first summit Pw1, and the rest may be inferred by analogy for it.

Controlled humidity should get figure mid point, so the target humidity Rhtag scope in winter:

When temperature be [19.5,20.5) time, Rhtag=0.5(Yw1-Yw2)+Yw2;

When temperature be [20.5,23.5) time, Rhtag=0.5(Yw1-Yw3)+Yw3;

When temperature is [23.5,24.5], Rhtag=0.5(Yw4-Yw3)+Yw3.

Symbolize critical field table in summer comprise the quadrangle of scope the first summit Ps1 be (22.5 °, 79.5%), the second summit Ps2 is (23.5 °, 24.4%), the 3rd summit Ps3 is (27.0 °, 19.8%) and the 4th summit Ps4 is (26.0 °, 57.3%).Line between first summit Ps1 and the 4th summit Ps4 is the first limit Ys1, line between first summit Ps1 and the second summit Ps2 is Second Edge Ys2, line between second summit Ps2 and the 3rd summit Ps3 is the 3rd limit Ys3, and the line between the 3rd summit Ps3 and the 4th summit Ps4 is the 4th limit Ys4.The point be on four edges is also in this standard scope table at last.

The humidity RHcmft scope that summer is suitable:

When temperature be [22.5,23.5) time, Ys2 < RHcmft < Ys1;

When temperature be [23.5,26.0) time, Ys3 < RHcmft < Ys1;

When temperature is [26.0,27.0], Ys3 < RHcmft < Ys4.Wherein,

The linear equation of Ys1 is: y=Ks1 (x-Ps1.x)+Ps1.y, wherein,

The linear equation of Ys2 is: y=Ks2 (x-Ps1.x)+Ps1.y, wherein,

The linear equation of Ys3 is: y=Ks3 (x-Ps2.x)+Ps2.y, wherein,

The linear equation of Ys4 is: y=Ks4 (x-Ps4.x)+Ps4.y, wherein,

In above-mentioned formula, Ps1.x represents the abscissa value of the first summit Ps1, and Ps1.y represents the ordinate value of the first summit Ps1, and the rest may be inferred by analogy for it.

Summer target humidity RHtag scope:

When temperature be [22.5,23.5) time, Rhtag=0.5(Ys1-Ys2)+Ys2;

When temperature be [23.5,26.0) time, Rhtag=0.5(Ys1-Ys3)+Ys3;

When temperature is [26.0,27.0], Rhtag=0.5(Ys4-Ys3)+Ys3.

No matter select be winter critical field table or summer critical field table, judge and revise basic ideas be identical.Respectively with current environmental temperature value and humidity value for transverse and longitudinal coordinate, form a point.When temperature value is lower than lowest temperature angle value point, conclude that temperature is too low; When temperature value is higher than maximum temperature value point, conclude that temperature is too high, when temperature value is between lowest temperature angle value and maximum temperature value, then judge whether humidity value Rhtag is in the scope of delineation.

For critical field table in winter, when temperature be 20.0 °, humidity be 45.0% time, this point is not in critical field table, can by heating to 20.3 ° of corrections in critical field table, can revise in critical field table by humidification to 57.9%, also can be heated to 20.1 ° simultaneously and revise in critical field table with humidification to 52.2%.The point that other warm and humid angle value being positioned at critical field off-balancesheet is formed all can be revised by the method, can be solely adjust temperature or humidity, also can both adjust together.Adjustment mode can be determined according to user's use habit, also can consume into and originally determine according to the complexity of adjustment temperature and humidity, institute.

Preferred embodiment two:

This preferred embodiment provides a kind of air-conditioning temperature and humidity intelligent control method, and the method is substantially identical with preferred embodiment one with key step.The method is temperature and/or the humidity of the real-time testing environment of control device of air-conditioning, and by the real-time temperature that detects and/or humidity value compared with the temperature and humidity critical field table in the control device being stored in advance in air-conditioning, when the temperature of environment and/or humidity are positioned at beyond temperature and humidity critical field table, air-conditioning is started working and to be revised temperature and/or humidity, until the temperature of environment and/or humidity enter in temperature and humidity critical field table.

Difference is: needing first to judge to use which table then just can carry out judgement work when arranging multiple critical field table timed unit, adding step, being delayed reaction speed.Region shown in diagonal line in Fig. 2 be winter critical field table and summer critical field table coincidence district, user all can be made to feel very suitable season no matter which the warm and humid angle value be in this region is, so only setting this region in this preferred embodiment is critical field table.

As shown in Figure 3, the region that critical field table covers is that in the quadrangle that surrounded by four straight lines, wherein, abscissa is temperature value, and unit is degree Celsius, and ordinate is relative humidity.First summit of quadrangle is (22.8 °, 62.3%), the second summit is (23.5 °, 24.4%), the 3rd summit be (24.5 °, 23.0%) and the 4th summit is (23.5 °, 58.3%).Line between first summit and the 4th summit is the first limit Yw1, line between first summit and the second summit is Second Edge Ys2, line between second summit and the 3rd summit is the 3rd limit Yw3, and the line between the 3rd summit and the 4th summit is the 4th limit Yw4.The point be on four edges is also in this standard scope table at last.

Suitable humidity RHcmft scope:

When temperature be [22.8,23.5) time, Ys2 < RHcmft < Yw1;

When temperature is [23.5,24.5], Yw3 < RHcmft < Yw4.

Identical with preferred embodiment one with modification method to the determination methods of environment temperature.

Preferred embodiment three:

This preferred embodiment provides a kind of air-conditioning temperature and humidity intelligent control method, and the method is substantially identical with preferred embodiment two with key step.The method is temperature and/or the humidity of the real-time testing environment of control device of air-conditioning, and by the described real-time temperature that detects and/or humidity value compared with the temperature and humidity critical field table in the control device being stored in advance in air-conditioning, when the temperature of environment and/or humidity are positioned at beyond temperature and humidity critical field table, air-conditioning is started working and to be revised temperature and/or humidity until the temperature of environment and/or humidity enter in temperature and humidity critical field table.Identical with preferred embodiment one with modification method to the determination methods of environment temperature.

Difference is: the region that critical field table covers is not limited to quadrangle, can be Else Rules such as polygon, irregularly shaped, and can expand preset range according to the use habit of user or the point of individual discrete be filled into wherein, form new temperature and humidity critical field table.The use habit of so-called user mainly comprises two aspects: humiture setting value when being manual mode, can be the use habit that namely setting value is considered to user, also can be certain warm and humid angle value be just identified as after repeatedly setting be the use habit of user; Two is that user manually can adjust set condition at any time according to the wish of oneself when mode of operation is in intellectual status, the warm and humid angle value of each adjustment set condition all as user use habit and go on record, then by control device according to the warm and humid angle value analysis be recorded, conversion, determine whether to revise current temperature and humidity critical field table and how to revise.

When control device analysis, convert think the warm and humid angle value that this is recorded unreasonable (excessive with temperature and humidity critical field table deviation) and set point number be less than N time (N be more than or equal to 1 positive integer, occurrence is arranged by control device), then be judged to be maloperation, do not process; When control device analysis, convert think this warm and humid angle value be recorded rationally (less with temperature and humidity critical field table deviation) or this warm and humid angle value set point number be recorded be more than or equal to N time (N be more than or equal to 1 positive integer, occurrence is arranged by control device) then judge that this adjustment set condition is as effectively setting, the warm and humid angle value that this is recorded by control device is sent to current temperature and humidity critical field table, revises and forms new temperature and humidity critical field table.

The concrete mode revised is not limit, and can be increases one or several effectively warm and humid angle value points of setting in former temperature and humidity critical field table, also can be the region that increase by comprises the effectively warm and humid angle value of setting.If what increase is a region, effectively the warm and humid angle value of setting can be the point on the summit in this region, sideline or the point in region.

Wherein, manual adjustment set condition carries out under intellectual status mode of operation, and adjustment set condition This move can not change intellectual status, that is, the mode of operation of air-conditioning can not be made to turn to manual mode.

Preferred embodiment four:

This preferred embodiment provides a kind of air-conditioning, is at least provided with control device, hygrosensor and hygrosensor.Control device by the temperature of the real-time testing environment of hygrosensor, by the humidity of the real-time testing environment of hygrosensor.This air-conditioning can realize the arbitrary described air-conditioning temperature and humidity intelligent control method of preferred embodiment one to three, a key Intelligent adjustment indoor temperature and humidity.

Claims

1. an air-conditioning temperature and humidity intelligent control method, it is characterized in that, described method is temperature and/or the humidity of the real-time testing environment of control device of air-conditioning, and by the described real-time temperature that detects and/or humidity value compared with the temperature and humidity critical field table in the control device being stored in advance in air-conditioning, when the temperature of environment and/or humidity are positioned at beyond described temperature and humidity critical field table, air-conditioning is started working and to be revised described temperature and/or humidity until the temperature of described environment and/or humidity enter in described temperature and humidity critical field table.

2. air-conditioning temperature and humidity intelligent control method according to claim 1, it is characterized in that, described method comprises the steps:

3. air-conditioning temperature and humidity intelligent control method according to claim 2, is characterized in that, the region that described critical field table covers is that in the quadrangle that surrounded by four straight lines, wherein, abscissa is temperature value, and unit is degree Celsius, and ordinate is relative humidity.

4. air-conditioning temperature and humidity intelligent control method according to claim 3, is characterized in that, the first summit of described quadrangle is (22.8 °, 62.3%), the second summit is (23.5 °, 24.4%), the 3rd summit is (24.5 °, 23.0%) and the 4th summit is (23.5 °, 58.3%); Line between described first summit and described 4th summit is the first limit, line between described first summit and described second summit is Second Edge, line between described second summit and described 3rd summit is the 3rd limit, and the line between described 3rd summit and described 4th summit is the 4th limit.

5. air-conditioning temperature and humidity intelligent control method according to claim 3, it is characterized in that, in described air conditioning control device preset at least two temperature and humidity critical field tables, and according to season difference at one time in only select one of them critical field table.

6. air-conditioning temperature and humidity intelligent control method according to claim 5, is characterized in that, be preset with in described air conditioning control device winter critical field table and summer critical field table; Wherein,

7. according to the arbitrary described air-conditioning temperature and humidity intelligent control method of claim 1 to 6, it is characterized in that, the warm and humid angle value that recording user custom sets also is added current temperature and humidity critical field table, forms new temperature and humidity critical field table; Humiture setting value when the warm and humid angle value of described user habit setting is manual mode.

8. air-conditioning temperature and humidity intelligent control method according to claim 7, it is characterized in that, set condition can be adjusted at any time when mode of operation is in intellectual status, the warm and humid angle value of each adjustment set condition is all carried out record as the warm and humid angle value of user habit setting, control device, according to the warm and humid angle value analysis be recorded, conversion, determines whether to revise current temperature and humidity critical field table and how to revise.

9. according to the arbitrary described air-conditioning temperature and humidity intelligent control method of claim 1 to 6, it is characterized in that, timing probe indoor occupant quantity, hale and hearty degree, body temperature, activity and/or surface moisture, as parameter, revise temperature and humidity critical field table according to described parameter.

10., for realizing an air-conditioning for the arbitrary described temperature and humidity intelligent control method of claim 1 to 9, it is characterized in that, described air-conditioning is at least provided with control device, hygrosensor and hygrosensor; Control device is by the temperature of the real-time testing environment of described hygrosensor, and control device is by the humidity of the real-time testing environment of described hygrosensor.