CN104896663A

CN104896663A - Adjusting method, adjusting system for air supply mode of air conditioner and air conditioner

Info

Publication number: CN104896663A
Application number: CN201510272135.8A
Authority: CN
Inventors: 赖想球; 张桃; 张�浩
Original assignee: Midea Group Co Ltd; Guangdong Midea Refrigeration Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2015-05-25
Filing date: 2015-05-25
Publication date: 2015-09-09
Anticipated expiration: 2035-05-25
Also published as: CN104896663B

Abstract

The invention provides an adjusting method, adjusting system for an air supply mode of an air conditioner and the air conditioner. The adjusting method for the air supply mode of the air conditioner comprises the steps that relative humidity of a room in which the air conditioner is located is detected, and temperature and air speed of the indoor position in which a user is located are obtained, and sendible temperature of the user is calculated according to the temperature and the air speed of the position in which the user is located and the relative humidity of the room; the air supply mode of the air conditioner is adjusted according to the sendible temperature of the user. According to the technical scheme, the air supply mode of the air conditioner can be adjusted intelligently according to the actual experience of the user, the demands of different users are met, and the usage experience of the users is facilitated to be improved.

Description

The method of adjustment of air-conditioner air supply mode, adjustment System and air-conditioner

Technical field

The present invention relates to air-conditioner technical field, in particular to a kind of method of adjustment of air-conditioner air supply mode, a kind of adjustment System of air-conditioner air supply mode and a kind of air-conditioner.

Background technology

At present, the air supply mode of market means for air conditioner can only be selected to arrange by user oneself, as long as user does not switch after arranging, can blow with same air supply mode always, can not automatically switch, and existing automatic wind function, also just simply simply associate with design temperature with indoor environment temperature sensor, do not consider impression and the needs of user present position reality.In addition, user is when using air-condition device, just air supply direction and pattern can be regulated often when feeling to be cold or overheated, but human body temperature and indoor temperature are all dynamic changes, just regulate when all feeling to be cold or overheated at every turn, easily cause uncomfortable, even cause flu of catching a cold, particularly old man and child and body immunity difference, for the more sensitive user group of variation of ambient temperature, more obvious to the harmful effect of health; Frequent change setting simultaneously also causes and uses trouble, affects the experience of user.

Therefore, how to realize the air supply mode of intelligent control air-conditioning device, the experience improving user while meeting consumers' demand becomes technical problem urgently to be resolved hurrily.

Summary of the invention

The present invention is intended at least to solve one of technical problem existed in prior art or correlation technique.

For this reason, one object of the present invention is the Adjusted Option of the air supply mode proposing a kind of air-conditioner, can realize the air supply mode of intelligent control air-conditioning device, meets the different demands of user, is conducive to the experience promoting user.

Another object of the present invention is to propose a kind of air-conditioner.

For achieving the above object, embodiment according to a first aspect of the invention, proposes a kind of method of adjustment of air supply mode of air-conditioner, comprising: detect the residing indoor relative humidity of air-conditioner, and obtain temperature and the wind speed of the user position of described indoor; According to the temperature of described user position and the relative humidity of wind speed and described indoor, calculate the sendible temperature of described user; The air supply mode of sendible temperature to described air-conditioner according to described user adjusts.

The method of adjustment of the air supply mode of air-conditioner according to an embodiment of the invention, by detecting relative humidity indoor residing for air-conditioner, and obtain temperature and the wind speed of user position, to calculate the sendible temperature of user, and then adjust according to the air supply mode of sendible temperature to air-conditioner of user, make air-conditioner can carry out the air supply mode of Intelligent adjustment air-conditioner in the actual impression of present position according to user, decrease human intervention, there is intelligence, the feature be simple and easy to, improve air-conditioner in prior art cannot realize the comfortable air supply mode of intelligence and the problem that user frequently adjusts setting need be relied on, meet the different demands of user, be conducive to the experience promoting user.

The method of adjustment of the air supply mode of air-conditioner according to the abovementioned embodiments of the present invention, can also have following technical characteristic:

According to one embodiment of present invention, also comprise: the multiple temperature range of corresponding stored, and the initial wind shelves corresponding with each temperature range in described multiple temperature range; Specifically comprise according to the step that the air supply mode of sendible temperature to described air-conditioner of described user adjusts: determine the temperature range residing for described sendible temperature; According to the temperature range residing for described sendible temperature, the initial wind shelves of described air-conditioner are set.

The method of adjustment of the air supply mode of air-conditioner according to an embodiment of the invention, by prestoring multiple temperature range, and the initial wind shelves corresponding with each temperature range in multiple temperature range, during with temperature range residing for the sendible temperature determining user, control air-conditioner to blow with the initial wind shelves of correspondence, air-conditioner according to the different sendible temperatures of user, can be realized adjusting the initial wind shelves of air-conditioner, improves the experience of user automatically.

According to one embodiment of present invention, described temperature range comprises: the first temperature range that temperature value reduces successively, the second temperature range, the 3rd temperature range, the 4th temperature range and the 5th temperature range; Specifically also comprise according to the step that the air supply mode of sendible temperature to described air-conditioner of described user adjusts: if the sendible temperature of described user is in described first temperature range, then the air supply mode of described air-conditioner is adjusted to and blows towards described user; If the sendible temperature of described user is in described second temperature range, then the air supply mode of described air-conditioner is adjusted to and blows towards described user, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the first predetermined value; If the sendible temperature of described user is in described 3rd temperature range, then the air supply mode of described air-conditioner is adjusted to periodically towards described user's air-supply and automatic ventilating, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the second predetermined value; If the sendible temperature of described user is in described 4th temperature range, then the air supply mode of described air-conditioner is adjusted to automatic ventilating pattern, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 3rd predetermined value; If the sendible temperature of described user is in described 5th temperature range, then the air supply mode of described air-conditioner is adjusted to and dodges described user air-supply, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 4th predetermined value.

Particularly, in the above-described embodiments, described multiple temperature ranges are divided into the interval that 5 temperature values reduce successively, to meet the demand of general user, the wherein division of temperature range and the scope of temperature range, designer can adjust according to actual conditions.By the temperature range residing for the sendible temperature that judges user, Thermal comfort according to user present position reality is subject to and needs, automated intelligent mates different air supply modes, break in correlation technique the situation that can only rely on user and manually arrange, solving existing air-conditioner cannot intelligent air supply and need to rely on the problem that in use frequently regulates of user, achieve and the intellectuality of the air supply mode of air-conditioner is regulated, meet the different demands of user, improve the experience of user.

According to one embodiment of present invention, also comprise: the instruction that the initial wind shelves of described air-conditioner are set to the first wind shelves by user if receive, difference between the initial wind shelves that temperature range then residing for the described first wind shelves sendible temperature current with described user is corresponding, adjusts the initial wind shelves corresponding with described each temperature range.

The method of adjustment of the air supply mode of air-conditioner according to an embodiment of the invention, in air-conditioner running, user also can arrange wind shelves voluntarily, by when receiving the instruction of the first wind shelves that user is arranged, interval for Current Temperatures corresponding initial wind shelves are modified to the first wind shelves, and the difference calculated between the first wind shelves initial wind shelves corresponding with the temperature range residing for current sendible temperature, automatically the initial wind shelves corresponding with other each temperature ranges are adjusted, the initial wind shelves making each temperature range corresponding after the adjustment, the actual demand that can be more close to the users.

According to one embodiment of present invention, periodically perform the temperature of user position and the operation of wind speed of the relative humidity detecting described indoor and the described indoor of acquisition, periodically to calculate the sendible temperature of described user, and adjust according to the air supply mode of sendible temperature to described air-conditioner of described user.

The method of adjustment of air-conditioner air supply mode according to an embodiment of the invention, due in air-conditioner running, indoor environment is in continuous change, therefore the relative humidity periodically performed in sensing chamber and the temperature of user position and the operation of wind speed that obtain indoor is passed through, periodically to calculate the sendible temperature of user, make when detecting that the sendible temperature of user is in other temperature ranges, automatically can carry out work according to the control mode that other temperature ranges are corresponding, the intellectuality achieving air-conditioner air supply mode regulates.

According to one embodiment of present invention, the step obtaining the temperature of described user position specifically comprises: the environment temperature detecting described indoor; The temperature of user position: T according to following formulae discovery _a=A × T ₁-B, wherein, T _arepresent the temperature of described user position, T ₁represent the environment temperature of described indoor, A and B is constant.Preferably, A can be 1.5859, B can be 18.518.

According to one embodiment of present invention, the step obtaining the wind speed of described user position specifically comprises: the current wind shelves detecting described air-conditioner; Wind shelves residing for the current wind shelves of described air-conditioner are interval, determine the wind speed of described user position.

According to one embodiment of present invention, wind shelves residing for the current wind shelves of described air-conditioner are interval, determine that the step of the wind speed of described user position specifically comprises: the wind speed by user position described in following formulae discovery: V=C × a × b (m/s); Wherein, set described a value according to the current air supply mode of described air-conditioner, and set described b value according to a type number of described air-conditioner, described C value becomes positive correlation with the current wind shelves of described air-conditioner.

Preferably, if the current wind shelves of described air-conditioner are greater than 90% and are less than or equal to 100%, then the wind speed V=1.0m/s × a × b of described user position; If the current wind shelves of described air-conditioner are greater than 80% and are less than or equal to 90%, then the wind speed V=0.8m/s × a × b of described user position; If the current wind shelves of described air-conditioner are greater than 70% and are less than or equal to 80%, then the wind speed V=0.6m/s × a × b of described user position; If the current wind shelves of described air-conditioner are greater than 60% and are less than or equal to 70%, then the wind speed V=0.3m/s × a × b of described user position; If the current wind shelves of described air-conditioner are greater than 40% and are less than or equal to 60%, then the wind speed V=0.2m/s × a × b of described user position; If the current wind shelves of described air-conditioner are greater than 20% and are less than or equal to 40%, then the wind speed V=0.1m/s × a × b of described user position; If the current wind shelves of described air-conditioner are less than or equal to 20%, then the wind speed V=0 of described user position.

According to one embodiment of present invention, by the sendible temperature of user described in following formulae discovery:

T _d=T _a+ (φ-50)/15-(V-2.5)/3, wherein, T _drepresent the sendible temperature of described user, T _arepresent the temperature of described user position, φ represents the relative humidity of described indoor, and V represents the wind speed of described user position; At initial time, T _athe environment temperature of=described indoor, V=0.

Embodiment according to a second aspect of the invention, also proposed a kind of adjustment System of air-conditioner air supply mode, comprising: the first detecting unit, for detecting relative humidity indoor residing for air-conditioner; Acquiring unit, for obtaining temperature and the wind speed of the user position of described indoor; First computing unit, for according to the temperature of described user position and the relative humidity of wind speed and described indoor, calculates the sendible temperature of described user; Adjustment unit, adjusts for the air supply mode of sendible temperature to described air-conditioner according to described user.

The adjustment System of the air supply mode of air-conditioner according to an embodiment of the invention, by detecting relative humidity indoor residing for air-conditioner, and obtain temperature and the wind speed of user position, to calculate the sendible temperature of user, and then adjust according to the air supply mode of sendible temperature to air-conditioner of user, make air-conditioner can carry out the air supply mode of Intelligent adjustment air-conditioner in the actual impression of present position according to user, decrease human intervention, there is intelligence, the feature be simple and easy to, improve air-conditioner in prior art cannot realize the comfortable air supply mode of intelligence and the problem that user frequently adjusts setting need be relied on, meet the different demands of user, be conducive to the experience promoting user.

The adjustment System of the air supply mode of air-conditioner according to the abovementioned embodiments of the present invention, can also have following technical characteristic:

According to one embodiment of present invention, also comprise: memory cell, for the multiple temperature range of corresponding stored, and the initial wind shelves corresponding with each temperature range in described multiple temperature range; Described adjustment unit comprises: determining unit, determines the temperature range residing for described sendible temperature; Setting unit, for the temperature range residing for described sendible temperature, arranges the initial wind shelves of described air-conditioner.

The adjustment System of the air supply mode of air-conditioner according to an embodiment of the invention, by prestoring multiple temperature range, and the initial wind shelves corresponding with each temperature range in multiple temperature range, during with temperature range residing for the sendible temperature determining user, control air-conditioner to blow with the initial wind shelves of correspondence, air-conditioner according to the different sendible temperatures of user, can be realized adjusting the initial wind shelves of air-conditioner, improves the experience of user automatically.

According to one embodiment of present invention, described temperature range comprises: the first temperature range that temperature value reduces successively, the second temperature range, the 3rd temperature range, the 4th temperature range and the 5th temperature range; Described adjustment unit specifically for: when the sendible temperature of described user is in described first temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user; When the sendible temperature of described user is in described second temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the first predetermined value; When the sendible temperature of described user is in described 3rd temperature range, the air supply mode of described air-conditioner is adjusted to periodically towards described user's air-supply and automatic ventilating, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the second predetermined value; When the sendible temperature of described user is in described 4th temperature range, the air supply mode of described air-conditioner is adjusted to automatic ventilating pattern, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 3rd predetermined value; When the sendible temperature of described user is in described 5th temperature range, the air supply mode of described air-conditioner is adjusted to and dodges described user air-supply, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 4th predetermined value.

According to one embodiment of present invention, also comprise: processing unit, for when receiving the initial wind shelves of user by described air-conditioner and being set to the instruction of the first wind shelves, difference between the initial wind shelves that temperature range residing for the sendible temperature that described first wind shelves are current with described user is corresponding, adjusts the initial wind shelves corresponding with described each temperature range.

The adjustment System of the air supply mode of air-conditioner according to an embodiment of the invention, in air-conditioner running, user also can arrange wind shelves voluntarily, by when receiving the instruction of the first wind shelves that user is arranged, interval for Current Temperatures corresponding initial wind shelves are modified to the first wind shelves, and the difference calculated between the first wind shelves initial wind shelves corresponding with the temperature range residing for current sendible temperature, automatically the initial wind shelves corresponding with other each temperature ranges are adjusted, the initial wind shelves making each temperature range corresponding after the adjustment, the actual demand that can be more close to the users.

According to one embodiment of present invention, described first detecting unit specifically for, periodically detect the relative humidity of described indoor; Described acquiring unit specifically for, periodically obtain temperature and the wind speed of the user position of described indoor, periodically calculate the sendible temperature of described user for described first computing unit, and described adjustment unit is adjusted according to the air supply mode of sendible temperature to described air-conditioner of the described user periodically calculated.

The adjustment System of air-conditioner air supply mode according to an embodiment of the invention, due in air-conditioner running, indoor environment is in continuous change, therefore the relative humidity periodically performed in sensing chamber and the temperature of user position and the operation of wind speed that obtain indoor is passed through, periodically to calculate the sendible temperature of user, make when detecting that the sendible temperature of user is in other temperature ranges, automatically can carry out work according to the control mode that other temperature ranges are corresponding, the intellectuality achieving air-conditioner air supply mode regulates.

According to one embodiment of present invention, described acquiring unit comprises: the second detecting unit, for detecting the environment temperature of described indoor; Second computing unit, the temperature for user position according to following formulae discovery: T _a=A × T ₁-B, wherein, T _arepresent the temperature of described user position, T ₁represent the environment temperature of described indoor, A and B is constant.Preferably, A can be 1.5859, B can be 18.518.

According to one embodiment of present invention, described acquiring unit comprises: the 3rd detecting unit, for detecting the current wind shelves of described air-conditioner; 3rd computing unit, interval for the wind shelves residing for the current wind shelves of described air-conditioner, determine the wind speed of described user position.

According to one embodiment of present invention, described determining unit is specifically for the wind speed by user position described in following formulae discovery: V=C × a × b (m/s); Wherein, set described a value according to the current air supply mode of described air-conditioner, and set described b value according to a type number of described air-conditioner, described C value becomes positive correlation with the current wind shelves of described air-conditioner.

According to one embodiment of present invention, described first computing unit is specifically for the sendible temperature by user described in following formulae discovery: T _d=T _a+ (φ-50)/15-(V-2.5)/3, wherein, T _drepresent the sendible temperature of described user, T _arepresent the temperature of described user position, φ represents the relative humidity of described indoor, and V represents the wind speed of described user position; At initial time, T _athe environment temperature of=described indoor, V=0.

Embodiment according to a third aspect of the invention we, also proposed a kind of air-conditioner, comprising: the adjustment System of the air-conditioner air supply mode described in above-mentioned any one embodiment.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 shows the schematic flow diagram of the method for adjustment of air-conditioner air supply mode according to an embodiment of the invention;

Fig. 2 shows the schematic block diagram of the adjustment System of air-conditioner air supply mode according to an embodiment of the invention;

Fig. 3 shows the structural representation of air-conditioner according to an embodiment of the invention;

Fig. 4 shows the schematic flow diagram of the method for adjustment of the air supply mode of air-conditioner according to another embodiment of the invention.

Detailed description of the invention

In order to more clearly understand above-mentioned purpose of the present invention, feature and advantage, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail.It should be noted that, when not conflicting, the feature in the embodiment of the application and embodiment can combine mutually.

Set forth a lot of detail in the following description so that fully understand the present invention; but; the present invention can also adopt other to be different from other modes described here and implement, and therefore, protection scope of the present invention is not by the restriction of following public specific embodiment.

Fig. 1 shows the schematic flow diagram of the method for adjustment of air-conditioner air supply mode according to an embodiment of the invention.

As shown in Figure 1, the method for adjustment of air-conditioner air supply mode according to an embodiment of the invention, comprising: step 102, detects the residing indoor relative humidity of air-conditioner, and obtains temperature and the wind speed of the user position of described indoor; Step 104, according to the temperature of described user position and the relative humidity of wind speed and described indoor, calculates the sendible temperature of described user; Step 106, the air supply mode of sendible temperature to described air-conditioner according to described user adjusts.

By detecting relative humidity indoor residing for air-conditioner, and obtain temperature and the wind speed of user position, to calculate the sendible temperature of user, and then adjust according to the air supply mode of sendible temperature to air-conditioner of user, make air-conditioner can carry out the air supply mode of Intelligent adjustment air-conditioner in the actual impression of present position according to user, decrease human intervention, there is intelligence, the feature be simple and easy to, improve air-conditioner in prior art cannot realize the comfortable air supply mode of intelligence and the problem that user frequently adjusts setting need be relied on, meet the different demands of user, be conducive to the experience promoting user.

The method of adjustment of air-conditioner air supply mode according to the abovementioned embodiments of the present invention, can also have following technical characteristic:

By prestoring multiple temperature range, and the initial wind shelves corresponding with each temperature range in multiple temperature range, during with temperature range residing for the sendible temperature determining user, control air-conditioner to blow with the initial wind shelves of correspondence, make air-conditioner can according to the different sendible temperatures of user, the initial wind shelves of automatic realization to air-conditioner adjust, and improve the experience of user.

In air-conditioner running, user also can arrange wind shelves voluntarily, by when receiving the instruction of the first wind shelves that user is arranged, interval for Current Temperatures corresponding initial wind shelves are modified to the first wind shelves, and the difference calculated between the first wind shelves initial wind shelves corresponding with the temperature range residing for current sendible temperature, automatically the initial wind shelves corresponding with other each temperature ranges are adjusted, the initial wind shelves making each temperature range corresponding after the adjustment, the actual demand that can be more close to the users.

Due in air-conditioner running, indoor environment is in continuous change, therefore the relative humidity periodically performed in sensing chamber and the temperature of user position and the operation of wind speed that obtain indoor is passed through, periodically to calculate the sendible temperature of user, make when detecting that the sendible temperature of user is in other temperature ranges, automatically can carry out work according to the control mode that other temperature ranges are corresponding, the intellectuality achieving air-conditioner air supply mode regulates.

Fig. 2 shows the schematic block diagram of the adjustment System of air-conditioner air supply mode according to an embodiment of the invention.

As shown in Figure 2, the adjustment System 200 of air-conditioner air supply mode according to an embodiment of the invention, comprising: the first detecting unit 202, for detecting relative humidity indoor residing for air-conditioner; Acquiring unit 204, for obtaining temperature and the wind speed of the user position of described indoor; First computing unit 206, for according to the temperature of described user position and the relative humidity of wind speed and described indoor, calculates the sendible temperature of described user; Adjustment unit 208, adjusts for the air supply mode of sendible temperature to described air-conditioner according to described user.

The adjustment System 200 of the air supply mode of air-conditioner according to the abovementioned embodiments of the present invention, can also have following technical characteristic:

According to one embodiment of present invention, also comprise: memory cell 210, for the multiple temperature range of corresponding stored, and the initial wind shelves corresponding with each temperature range in described multiple temperature range; Described adjustment unit 208 comprises: determining unit 2082, for determining the temperature range residing for described sendible temperature; Setting unit 2084, for the temperature range residing for described sendible temperature, arranges the initial wind shelves of described air-conditioner.

According to one embodiment of present invention, described temperature range comprises: the first temperature range that temperature value reduces successively, the second temperature range, the 3rd temperature range, the 4th temperature range and the 5th temperature range; Described adjustment unit 208 specifically for: when the sendible temperature of described user is in described first temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user; When the sendible temperature of described user is in described second temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the first predetermined value; When the sendible temperature of described user is in described 3rd temperature range, the air supply mode of described air-conditioner is adjusted to periodically towards described user's air-supply and automatic ventilating, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the second predetermined value; When the sendible temperature of described user is in described 4th temperature range, the air supply mode of described air-conditioner is adjusted to automatic ventilating pattern, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 3rd predetermined value; When the sendible temperature of described user is in described 5th temperature range, the air supply mode of described air-conditioner is adjusted to and dodges described user air-supply, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 4th predetermined value.

According to one embodiment of present invention, also comprise: processing unit 212, for when receiving the initial wind shelves of user by described air-conditioner and being set to the instruction of the first wind shelves, difference between the initial wind shelves that temperature range residing for the sendible temperature that described first wind shelves are current with described user is corresponding, adjusts the initial wind shelves corresponding with described each temperature range.

According to one embodiment of present invention, described first detecting unit 202 specifically for, periodically detect the relative humidity of described indoor; Described acquiring unit 204 specifically for, periodically obtain temperature and the wind speed of the user position of described indoor, periodically calculate the sendible temperature of described user for described first computing unit 206, and described adjustment unit 208 is adjusted according to the air supply mode of sendible temperature to described air-conditioner of the described user periodically calculated.

According to one embodiment of present invention, described acquiring unit 204 comprises: the second detecting unit 2042, for detecting the environment temperature of described indoor; Second computing unit 2044, the temperature for user position according to following formulae discovery: T _a=A × T ₁-B, wherein, T _arepresent the temperature of described user position, T ₁represent the environment temperature of described indoor, A and B is constant.Preferably, A can be 1.5859, B can be 18.518.

According to one embodiment of present invention, described acquiring unit 204 comprises: the 3rd detecting unit 2046, for detecting the current wind shelves of described air-conditioner; 3rd computing unit 2048, interval for the wind shelves residing for the current wind shelves of described air-conditioner, determine the wind speed of described user position.

According to one embodiment of present invention, described 3rd computing unit 2048 is specifically for the wind speed by user position described in following formulae discovery: V=C × a × b (m/s); Wherein, set described a value according to the current air supply mode of described air-conditioner, and set described b value according to a type number of described air-conditioner, described C value becomes positive correlation with the current wind shelves of described air-conditioner.

According to one embodiment of present invention, described first computing unit 206 is specifically for the sendible temperature by user described in following formulae discovery: T _d=T _a+ (φ-50)/15-(V-2.5)/3, wherein, T _drepresent the sendible temperature of described user, T _arepresent the temperature of described user position, φ represents the relative humidity of described indoor, and V represents the wind speed of described user position; At initial time, T _athe environment temperature of=described indoor, V=0.

Fig. 3 shows the structural representation of air-conditioner according to an embodiment of the invention.

As shown in Figure 3, air-conditioner 300 according to an embodiment of the invention, comprising: the adjustment System 200 of air-conditioner air supply mode as shown in Figure 2.

As shown in Figure 4, the method for adjustment of the air supply mode of air-conditioner according to another embodiment of the invention, comprising:

Step 402, detects indoor environment temperature T1, indoor relative humidity φ, and calculates the sendible temperature Td of user.

Preferably, by the sendible temperature of following formulae discovery user:

Td=Ta+ (φ-50)/15-(V-2.5)/3; Wherein, Td represents the sendible temperature of user, and Ta represents the temperature of user present position, and V represents the wind speed of user present position; When air-conditioner is started shooting, initial value Ta=T1 can be given tacit consent to; V=0.

Step 404, determines the temperature range residing for sendible temperature Td, if T _d>=35 DEG C, then perform step 406; If 32 DEG C≤T _d< 35 DEG C, then perform step 408; If 28 DEG C≤T _d< 32 DEG C, then perform step 410; If 26 DEG C≤T _d< 28 DEG C, then perform step 412; If T _d< 26 DEG C, then perform step 414.

Step 406, initial wind shelves are set to FAN1, and infrared sensor detects the position at user place, blow in the position controlling wind deflector and wind guide strip guiding people place.

Step 408, initial wind shelves are set to FAN2, and infrared sensor detects the position at user place, blow in the position controlling wind deflector and wind guide strip guiding people place; 1 DEG C of wind shelves association decline FAN001 often falls in Td simultaneously.

Step 410, initial wind shelves FAN3, infrared sensor detects user position, blows in the position controlling wind deflector and wind guide strip oriented users place.Time Td 2 DEG C of wind shelves association decline FAN002 often fall.In running, after user blows the t01 time, open natural wind function, run and to continue after the natural wind function t02 time to blow t01 to user, so circulate.

Step 412, initial wind shelves FAN4, runs natural wind function, and in running, Td often declines 1 DEG C, wind shelves decline FAN003 simultaneously.

Step 414, initial wind shelves FAN5, infrared sensor detects the position at user place, and control the position that wind deflector and wind guide strip avoid user place and blow, in running, Td often declines 0.5 DEG C, wind shelves decline FAN004 simultaneously, minimumly presses 1% operation.

Step 416, judges whether running time reaches setting value, if so, then returns step 404, and namely air-conditioner often runs setting-up time (as 30 seconds) and performs a said process; Otherwise, perform step 418.

Step 418, maintains current control mode, and returns step 416.

In the above-described embodiments, the sendible temperature of user is divided into 5 temperature ranges, and corresponding initial wind shelves are set for each temperature range, specifically as shown in table 1:

Sendible temperature Td	Initial wind shelves
		Td >=35 DEG C (extremely hot district)	FAN1
35 DEG C of > Td >=32 DEG C (hot district)	FAN2
		32 DEG C of > Td >=28 DEG C (hot-zone)	FAN3
28 DEG C of > Td >=26 DEG C (warm sector)	FAN4
		26 DEG C of > Td (Liang Qu)	FAN5

Table 1

Preferably, FAN1=100%, FAN2=100%, FAN3=85%, FAN4=75%, FAN5=60%.

The temperature Ta of user present position calculates by following formula:

Ta=A × T1-B, wherein, T1 is indoor environment temperature, and A can be 1.5859, B can be 18.518.

In addition, the wind speed V of user present position calculates by table 2:

Table 2

Preferably, when the air-supply type of air-conditioner is for blowing towards user, a=1; When the air-supply type of air-conditioner is for sweeping wind or natural wind, a=0.5; When the air-supply type of air-conditioner is blown for dodging user, a=0.

When the type number of air-conditioner be 1 and following time, b=1; When the type number of air-conditioner be 1.5 (containing) to 2 time, b=1.2; When the type number of air-conditioner be 2 (containing) to 3 time, b=1.5; When a type number of air-conditioner is more than 3 (containing), b=2.

In the running of air-conditioner, if detect, Td enters next subregion, then automatically run by the control mode of next subregion.

In addition, in the running of air-conditioner, the setting that user manually carries out wind shelves is only effective in current temperature range, and after user is manually arranged, the difference between current wind shelves value and user's setting value can be calculated: (Vx-Vs), and then the initial wind shelves corresponding to other temperature ranges according to this difference adjust, the initial wind shelves that namely other temperature ranges are corresponding are adjusted to basic wind shelves and deduct (Vx-Vs).Such as, the initial wind shelves that temperature range A is corresponding are 85%, and be 90% after user's adjustment, then the initial wind shelves that other temperature ranges are corresponding then increase by 5% on the basis of original wind shelves.

The Adjusted Option of the air supply mode that the above embodiment of the present invention proposes can according to the hotness of user under different sendible temperatures by the air supply mode going Intelligent Matching user to need, the Change of types of the change of sendible temperature with wind speed size variation, wind vector, wind is associated, reduce human intervention, there is intelligence, be simple and easy to use, comfortable feature, improve existing air-conditioning do not know how to carry out wind setting, need to feel colder in frequent setting and use procedure or partial heat goes the problem of wind speed setting wind direction again.In addition, control mode of the present invention all without the need to intervening, automatically removes Intelligent Matching by sendible temperature in whole air-conditioning use procedure, and all right intelligence learning correction when user intervenes simultaneously, has the advantages that to use more comfortable and more comfortable

More than be described with reference to the accompanying drawings technical scheme of the present invention, the present invention proposes a kind of Adjusted Option of air supply mode of new air-conditioner, the air supply mode of intelligent control air-conditioning device can be realized, meet the different demands of user, be conducive to the experience promoting user.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. a method of adjustment for air-conditioner air supply mode, is characterized in that, comprising:

Detect the residing indoor relative humidity of air-conditioner, and obtain temperature and the wind speed of the user position of described indoor;

According to the temperature of described user position and the relative humidity of wind speed and described indoor, calculate the sendible temperature of described user;

The air supply mode of sendible temperature to described air-conditioner according to described user adjusts.

2. the method for adjustment of air-conditioner air supply mode according to claim 1, is characterized in that, also comprise:

The multiple temperature range of corresponding stored, and the initial wind shelves corresponding with each temperature range in described multiple temperature range;

Specifically comprise according to the step that the air supply mode of sendible temperature to described air-conditioner of described user adjusts:

Determine the temperature range residing for described sendible temperature;

According to the temperature range residing for described sendible temperature, the initial wind shelves of described air-conditioner are set.

3. the method for adjustment of air-conditioner air supply mode according to claim 2, it is characterized in that, described temperature range comprises: the first temperature range that temperature value reduces successively, the second temperature range, the 3rd temperature range, the 4th temperature range and the 5th temperature range;

Specifically also comprise according to the step that the air supply mode of sendible temperature to described air-conditioner of described user adjusts:

If the sendible temperature of described user is in described first temperature range, then the air supply mode of described air-conditioner is adjusted to and blows towards described user;

If the sendible temperature of described user is in described second temperature range, then the air supply mode of described air-conditioner is adjusted to and blows towards described user, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the first predetermined value;

If the sendible temperature of described user is in described 3rd temperature range, then the air supply mode of described air-conditioner is adjusted to periodically towards described user's air-supply and automatic ventilating, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the second predetermined value;

If the sendible temperature of described user is in described 4th temperature range, then the air supply mode of described air-conditioner is adjusted to automatic ventilating pattern, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 3rd predetermined value;

If the sendible temperature of described user is in described 5th temperature range, then the air supply mode of described air-conditioner is adjusted to and dodges described user air-supply, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 4th predetermined value.

4. the method for adjustment of air-conditioner air supply mode according to claim 2, is characterized in that, also comprise:

The instruction that the initial wind shelves of described air-conditioner are set to the first wind shelves by user if receive, difference between the initial wind shelves that temperature range then residing for the described first wind shelves sendible temperature current with described user is corresponding, adjusts the initial wind shelves corresponding with described each temperature range.

5. the method for adjustment of air-conditioner air supply mode according to claim 1, it is characterized in that, periodically perform the temperature of user position and the operation of wind speed of the relative humidity detecting described indoor and the described indoor of acquisition, periodically to calculate the sendible temperature of described user, and adjust according to the air supply mode of sendible temperature to described air-conditioner of described user.

6. the method for adjustment of air-conditioner air supply mode according to claim 1, is characterized in that, the step obtaining the temperature of described user position specifically comprises:

Detect the environment temperature of described indoor;

The temperature of user position according to following formulae discovery:

T _a=A × T ₁-B, wherein, T _arepresent the temperature of described user position, T ₁represent the environment temperature of described indoor, A and B is constant.

7. the method for adjustment of air-conditioner air supply mode according to claim 1, is characterized in that, the step obtaining the wind speed of described user position specifically comprises:

Detect the current wind shelves of described air-conditioner;

Wind shelves residing for the current wind shelves of described air-conditioner are interval, determine the wind speed of described user position.

8. the method for adjustment of air-conditioner air supply mode according to claim 7, is characterized in that, the wind shelves residing for the current wind shelves of described air-conditioner are interval, determine that the step of the wind speed of described user position specifically comprises:

Wind speed by user position described in following formulae discovery:

V=C × a × b (m/s); Wherein, set described a value according to the current air supply mode of described air-conditioner, and set described b value according to a type number of described air-conditioner, described C value becomes positive correlation with the current wind shelves of described air-conditioner.

9. the method for adjustment of air-conditioner air supply mode according to claim 8, is characterized in that:

If the current wind shelves of described air-conditioner are greater than 90% and are less than or equal to 100%, then the wind speed V=1.0m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are greater than 80% and are less than or equal to 90%, then the wind speed V=0.8m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are greater than 70% and are less than or equal to 80%, then the wind speed V=0.6m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are greater than 60% and are less than or equal to 70%, then the wind speed V=0.3m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are greater than 40% and are less than or equal to 60%, then the wind speed V=0.2m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are greater than 20% and are less than or equal to 40%, then the wind speed V=0.1m/s × a × b of described user position;

If the current wind shelves of described air-conditioner are less than or equal to 20%, then the wind speed V=0 of described user position.

10. the method for adjustment of air-conditioner air supply mode according to any one of claim 1 to 9, is characterized in that, the sendible temperature by user described in following formulae discovery:

T _d=T _a+ (φ-50)/15-(V-2.5)/3, wherein, T _drepresent the sendible temperature of described user, T _arepresent the temperature of described user position, φ represents the relative humidity of described indoor, and V represents the wind speed of described user position;

At initial time, T _athe environment temperature of=described indoor, V=0.

The adjustment System of 11. 1 kinds of air-conditioner air supply modes, is characterized in that, comprising:

First detecting unit, for detecting relative humidity indoor residing for air-conditioner;

Acquiring unit, for obtaining temperature and the wind speed of the user position of described indoor;

First computing unit, for according to the temperature of described user position and the relative humidity of wind speed and described indoor, calculates the sendible temperature of described user;

Adjustment unit, adjusts for the air supply mode of sendible temperature to described air-conditioner according to described user.

The adjustment System of 12. air-conditioner air supply modes according to claim 11, is characterized in that, also comprise:

Memory cell, for the multiple temperature range of corresponding stored, and the initial wind shelves corresponding with each temperature range in described multiple temperature range;

Described adjustment unit comprises:

Determining unit, determines the temperature range residing for described sendible temperature;

Setting unit, for the temperature range residing for described sendible temperature, arranges the initial wind shelves of described air-conditioner.

The adjustment System of 13. air-conditioner air supply modes according to claim 12, it is characterized in that, described temperature range comprises: the first temperature range that temperature value reduces successively, the second temperature range, the 3rd temperature range, the 4th temperature range and the 5th temperature range;

Described adjustment unit specifically for:

When the sendible temperature of described user is in described first temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user;

When the sendible temperature of described user is in described second temperature range, the air supply mode of described air-conditioner is adjusted to and blows towards described user, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the first predetermined value;

When the sendible temperature of described user is in described 3rd temperature range, the air supply mode of described air-conditioner is adjusted to periodically towards described user's air-supply and automatic ventilating, and described user sendible temperature often decline unit temperature time, the wind shelves of described air-conditioner are reduced the second predetermined value;

When the sendible temperature of described user is in described 4th temperature range, the air supply mode of described air-conditioner is adjusted to automatic ventilating pattern, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 3rd predetermined value;

When the sendible temperature of described user is in described 5th temperature range, the air supply mode of described air-conditioner is adjusted to and dodges described user air-supply, and described user sendible temperature often decline unit temperature time, by the wind shelves of described air-conditioner reduce the 4th predetermined value.

The adjustment System of 14. air-conditioner air supply modes according to claim 12, is characterized in that, also comprise:

Processing unit, for when receiving the initial wind shelves of user by described air-conditioner and being set to the instruction of the first wind shelves, difference between the initial wind shelves that temperature range residing for the sendible temperature that described first wind shelves are current with described user is corresponding, adjusts the initial wind shelves corresponding with described each temperature range.

The adjustment System of 15. air-conditioner air supply modes according to claim 11, is characterized in that:

Described first detecting unit specifically for, periodically detect the relative humidity of described indoor;

Described acquiring unit specifically for, periodically obtain temperature and the wind speed of the user position of described indoor, periodically calculate the sendible temperature of described user for described first computing unit, and described adjustment unit is adjusted according to the air supply mode of sendible temperature to described air-conditioner of the described user periodically calculated.

The adjustment System of 16. air-conditioner air supply modes according to claim 11, it is characterized in that, described acquiring unit comprises:

Second detecting unit, for detecting the environment temperature of described indoor;

Second computing unit, the temperature for user position according to following formulae discovery:

The adjustment System of 17. air-conditioner air supply modes according to claim 11, it is characterized in that, described acquiring unit comprises:

3rd detecting unit, for detecting the current wind shelves of described air-conditioner;

3rd computing unit, interval for the wind shelves residing for the current wind shelves of described air-conditioner, determine the wind speed of described user position.

The adjustment System of 18. air-conditioner air supply modes according to claim 17, is characterized in that, described 3rd computing unit specifically for:

Wind speed by user position described in following formulae discovery:

19., according to claim 11 to the adjustment System of the air-conditioner air supply mode according to any one of 18, is characterized in that, described first computing unit specifically for:

Sendible temperature by user described in following formulae discovery:

At initial time, T _athe environment temperature of=described indoor, V=0.

20. 1 kinds of air-conditioners, is characterized in that, comprising: the adjustment System of the air-conditioner air supply mode according to any one of claim 11 to 19.