CN106524442A - Body-feeling-based control method, air conditioner and body-feeling-based control system - Google Patents

Abstract

The invention discloses a body-feeling-based control method of an air conditioner. The body-feeling-based control method of the air conditioner comprises the following steps that the temperature nearby a user and the activity level of the user are obtained through intelligent wearable equipment; and according to the range section which the activity level of the user belongs to and the temperature nearby the user, a body feeling value is calculated correspondingly, and therefore the air conditioner is controlled to operate in a comfortable mode according to the body feeling value. The invention further discloses the air conditioner and the body-feeling-based control system. By the adoption of the body-feeling-based control method, the air conditioner and the body-feeling-based control system, the body feeling value can be obtained according to the activity level of the user and the temperature nearby the user, so that a comfortable environment can be provided for the user, and user experience is improved.

Description

Feel with oneself control method, air-conditioner and feel with oneself control system

Technical field

The present invention relates to Smart Home technical field, more particularly to a kind of carry-on sense control method, the air-conditioner of air-conditioner And feel with oneself control system.

Background technology

Air-conditioner generally needs user first to press power key, then could select to freeze, heat, sleep, blow or dehumidify Isotype, and specific temperature set by user oneself, one section when the mode operation that air-conditioner is selected according to user After time, user is likely to the too high or too low of sensible temperature tune, at this time, it may be necessary to user enters trip temperature adjustment again manually, It is such then can and reduce Consumer's Experience.To solve this problem, the scheme that existing air-conditioner is taken is the return air temperature with indoor set Based on degree, indoor environment temperature is automatically controlled.The shortcoming of this technology is：Return air temperature can not truly reflect the temperature of user Impression, if only controlling indoor environment temperature by return air temperature, can not accurately reach comfort conditions, therefore, can cause to relax Adaptive control is poor, so as to reduce Consumer's Experience.

The content of the invention

Present invention is primarily targeted at providing a kind of carry-on sense control method of air-conditioner, air-conditioner and carry-on sensing control System processed, it is intended to carry-on inductance value is obtained according to the temperature near the activity of user and user, can so be provided the user Comfortable environment, so as to improve Consumer's Experience.

For achieving the above object, the present invention provides a kind of carry-on sense control method of air-conditioner, comprises the following steps：

By the temperature near Intelligent worn device acquisition user and the activity of user；

The temperature near range intervals and the user according to residing for the activity of the user, correspondence calculate with Body inductance value, runs comfort mode according to the carry-on inductance value to control air-conditioner.

Preferably, the temperature near the range intervals and the user according to residing for the activity of the user, The step of correspondence calculates carry-on inductance value includes：

When the activity of the user is in first interval scope, corresponding the is calculated according to quiet activity computation rule One carry-on inductance value；

When the activity of the user is in second interval scope, corresponding the is calculated according to low activity computation rule Two carry-on inductance value；

When the activity of the user is in 3rd interval scope, corresponding the is calculated according to middle activity computation rule Three carry-on inductance value；

When the activity of the user is in four interval ranges, corresponding the is calculated according to high activity computation rule Four carry-on inductance value.

Preferably, the carry-on sense control method of the air-conditioner is further comprising the steps of：

The temperature near range intervals, user when wind speed parameter is got, according to residing for the activity of the user And wind speed parameter, correspondence calculates the carry-on inductance value of amendment, and controls air-conditioner according to the carry-on inductance value operation comfort mode of amendment.

Preferably, the carry-on sense control method of the air-conditioner is further comprising the steps of：

Scope area when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Between, the temperature near user, wind speed parameter and distance parameter, correspondence calculates the carry-on inductance value of amendment, and controls air-conditioner root Comfort mode is run according to carry-on inductance value is corrected.

Preferably, the carry-on sense control method of the air-conditioner is further comprising the steps of：

Scope area when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Between, the temperature near user and distance parameter, correspondence calculates the carry-on inductance value of amendment, and it is carry-on according to amendment to control air-conditioner Inductance value runs comfort mode.

For achieving the above object, the present invention also provides a kind of air-conditioner, and the air-conditioner includes：

Acquisition module, for the activity by the temperature near Intelligent worn device acquisition user and user；

Computing module, for the temperature near the range intervals according to residing for the activity of the user and the user Degree, correspondence calculate carry-on inductance value, run comfort mode according to the carry-on inductance value to control air-conditioner.

Preferably, the computing module includes:

First computing unit, when being in first interval scope for the activity in the user, according to quiet activities meter Calculate rule and calculate the corresponding first carry-on inductance value；

Second computing unit, when being in second interval scope for the activity in the user, according to low activities meter Calculate rule and calculate the corresponding second carry-on inductance value；

3rd computing unit, when being in 3rd interval scope for the activity in the user, according to middle activities meter Calculate rule and calculate corresponding 3rd carry-on inductance value；

4th computing unit, when being in four interval ranges for the activity in the user, according to high activities meter Calculate rule and calculate corresponding 4th carry-on inductance value.

Preferably, the air-conditioner also includes：

Correcting module, for range intervals, use when wind speed parameter is got, according to residing for the activity of the user Temperature and wind speed parameter near family, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to the carry-on inductance value of amendment Operation comfort mode.

Preferably, the correcting module is additionally operable to：

Scope area when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Between, the temperature near user, wind speed parameter and distance parameter, correspondence calculates the carry-on inductance value of amendment, and controls air-conditioner root Comfort mode is run according to carry-on inductance value is corrected.

Preferably, the air-conditioner also includes：

Correcting module, for when the distance parameter of user distance air-conditioner is got, according to the activity of the user Temperature and distance parameter near residing range intervals, user, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner Comfort mode is run according to carry-on inductance value is corrected.

For achieving the above object, the present invention also provides a kind of sense control system with oneself, and the carry-on sense control system includes Air-conditioner as above and the Intelligent worn device being wirelessly connected with the air-conditioner, the Intelligent worn device for The activity of temperature and user near the user of the air-conditioner uploading detection.

The carry-on sense control method of air-conditioner that the present invention is provided, air-conditioner and feel with oneself control system, by intelligence Wearable device obtains the activity of the temperature near user and user, then the scope according to residing for the activity of the user Temperature near the interval and user, correspondence calculate carry-on inductance value, are transported according to the carry-on inductance value with controlling air-conditioner Row comfort mode.So, carry-on inductance value is obtained by the activity according to user and the temperature near user, can be so tied The virtual condition at family is shared, suitable a home from home is provided the user, the individual demand for meeting user is reached, so as to improve Consumer's Experience.

Description of the drawings

Fig. 1 is the schematic flow sheet of the carry-on sense control method first embodiment of air-conditioner of the present invention；

Fig. 2 is range intervals of the step according to residing for the activity of the user in Fig. 1 and the temperature near the user Degree, correspondence calculate carry-on inductance value, are illustrated according to the refinement flow process of the carry-on inductance value operation comfort mode with controlling air-conditioner Figure；

Fig. 3 is the schematic flow sheet of the carry-on sense control method second embodiment of air-conditioner of the present invention；

Fig. 4 is the schematic flow sheet of the carry-on sense control method 3rd embodiment of air-conditioner of the present invention；

Fig. 5 is the schematic flow sheet of the carry-on sense control method fourth embodiment of air-conditioner of the present invention；

Fig. 6 is the high-level schematic functional block diagram of air-conditioner first embodiment of the present invention；

Fig. 7 is the refinement high-level schematic functional block diagram of computing module in Fig. 6；

Fig. 8 is the high-level schematic functional block diagram of air-conditioner second embodiment of the present invention；

Fig. 9 is the high-level schematic functional block diagram of one embodiment of control system of sense with oneself of the invention.

The realization of the object of the invention, functional characteristics and advantage will be described further in conjunction with the embodiments referring to the drawings.

Specific embodiment

It should be appreciated that specific embodiment described herein is not intended to limit the present invention only to explain the present invention.

The present invention provides a kind of carry-on sense control method of air-conditioner, air-conditioner and feels with oneself control system, by root According to user activity and user near temperature computation obtain carry-on inductance value, so can with reference to the virtual condition of user, Suitable a home from home is provided the user, the individual demand for meeting user is reached, so as to improve Consumer's Experience.

With reference to Fig. 1, in one embodiment, the carry-on sense control method of the air-conditioner is comprised the following steps：

Step S10, by Intelligent worn device obtain user near temperature and user activity；

In the present embodiment, Intelligent worn device can be Intelligent bracelet, intelligent watch etc., with step number, activity, sleep Various detection functions such as dormancy, heart rate, body temperature, illumination, environment noise, diet, and be wirelessly connected with air-conditioner.The intelligence is worn The equipment of wearing can be non-wearing state and wearing state, and when in non-wearing state, Intelligent worn device detection is user Neighbouring temperature, and when Intelligent worn device wearing state, detection be user shell temperature.The present invention is mainly with intelligence Illustrate as a example by temperature near wearable device detection user.In other embodiment, shape is worn when Intelligent worn device is in During state, shell temperature can be replaced the temperature near user.

In the present embodiment, the activity of user can be examined by the acceleration transducer arranged in Intelligent worn device Survey, it is, of course, also possible to calculate with reference to parameters such as step number, hearts rate.The present invention is not especially limited to this.

Temperature near step S20, the range intervals according to residing for the activity of the user and the user, correspondence Carry-on inductance value is calculated, comfort mode is run according to the carry-on inductance value to control air-conditioner.

In the present embodiment, live as the activity of user can be divided into quiet activity, low activity, middle activity and height Momentum etc. four is interval, certainly, in other embodiment, further can segment according to actual needs, therefore, it is not limited to Above-mentioned four embodiments enumerated.The interval different carry-on inductance value computation rules corresponding respectively of different activities, therefore, according to The corresponding computation rule of activity, you can calculate corresponding carry-on inductance value, may thereby determine that the carry-on impression of user, and then Control air-conditioner runs comfort mode according to carry-on inductance value.

For example, when the activity of user is 58, the activity is interval in quiet activity, therefore, it can according to corresponding Quiet activity computation rule, with reference to the temperature near the user of detection, calculates corresponding carry-on inductance value AMV.If -3≤AMV ＜ -2, corresponding user is felt as with oneself cold, and now air-conditioner can then run corresponding heating mode；If 0 ＜ AMV≤0.5, right The user for answering is felt as with oneself comfortably, and now air-conditioner continues to run with current operational mode；If 2 ＜ AMV≤3, corresponding use Family is felt as with oneself heat, and corresponding user is felt as with oneself heat, and now air-conditioner can then run corresponding refrigeration mode.Above pin Better simply several intervals are only enumerated to AMV, in order to reach the purpose for fine-tuning, further can be carried out to freezing or heating Fine setting, such as adjusts the parameters such as temperature, wind speed, wind direction.The present embodiment contrast does not remake concrete example.

The carry-on sense control method of the air-conditioner that the present invention is provided, obtains the temperature near user by Intelligent worn device And the activity of user, the then range intervals according to residing for the activity of the user and the temperature near the user Degree, correspondence calculate carry-on inductance value, run comfort mode according to the carry-on inductance value to control air-conditioner.So, by basis Temperature near the activity of user and user obtains carry-on inductance value, can be so user with reference to the virtual condition of user The a home from home being adapted to is provided, the individual demand for meeting user is reached, so as to improve Consumer's Experience.

In one embodiment, as shown in Fig. 2 on the basis of shown in above-mentioned Fig. 1, step S20 includes：

Step S201, the user activity be in first interval scope when, according to quiet activity computation rule calculate Go out the corresponding first carry-on inductance value；

In the present embodiment, first interval scope could be arranged to [0,85), when detection User Activity amount M be 58 when, then In first interval scope, the activity is quiet activity, and corresponding quiet activity computation rule is：

AMV1=A1*Ta-B1；

Wherein, A1, B1 are constant (being obtained according to experiment), and A1 could be arranged to 0.2389, B1 and can arrange 6.1558, will Temperature Ta near the user of detection is calculated the first carry-on inductance value AMV1 by substituting into the formula.Certainly, A1, B1 can be with Other reasonable values are set to according to actual needs, however it is not limited to the concrete numerical value enumerated.

Step S202, the user activity be in second interval scope when, according to low activity computation rule calculate Go out the corresponding second carry-on inductance value；

In the present embodiment, second interval scope could be arranged to [85,120), when detection User Activity amount M be 93 when, Second interval scope is in then, the activity is low activity, and corresponding quiet activity computation rule is：

AMV1=A2*Ta-B2；

Wherein, A2, B2 are constant (being obtained according to experiment), and A2 could be arranged to 0.175, B2 and can arrange 3.643, by inspection Temperature Ta near the user of survey is calculated the second carry-on inductance value AMV2 by substituting into the formula.Certainly, A2, B2 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

Step S203, the user activity be in 3rd interval scope when, according to middle activity computation rule calculate Go out corresponding 3rd carry-on inductance value；

In the present embodiment, 3rd interval scope could be arranged to [120,150), when detection User Activity amount M be 123 When, then in 3rd interval scope, the activity is middle activity, and corresponding middle activity computation rule is：

AMV3=A3*Ta-B3；

Wherein, A3, B3 are constant (being obtained according to experiment), and A3 could be arranged to 0.174, B3 and can arrange 3.358, by inspection Temperature Ta near the user of survey is calculated the 3rd carry-on inductance value AMV3 by substituting into the formula.Certainly, A3, B3 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

Step S204, the user activity be in four interval ranges when, according to high activity computation rule calculate Go out corresponding 4th carry-on inductance value.

In the present embodiment, the 4th interval range could be arranged to [150,180), when detection User Activity amount M be 157 When, then in the 4th interval range, the activity is high activity, and corresponding high activity computation rule is：

AMV4=A4*Ta-B4；

Wherein, A4, B4 are constant (being obtained according to experiment), and A4 could be arranged to 0.265, B4 and can arrange 4.158, by inspection Temperature Ta near the user of survey is calculated the 4th carry-on inductance value AMV4 by substituting into the formula.Certainly, A4, B4 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

In one embodiment, as shown in figure 3, on the basis of shown in above-mentioned Fig. 1, also including after step S10：

Step S30, when wind speed parameter is got, the range intervals, user according to residing for the activity of the user are attached Near temperature and wind speed parameter, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to the carry-on inductance value operation of amendment Comfort mode.

In the present embodiment, wind speed parameter includes wind shelves, wind direction etc., according to wind speed parameter to feeling with oneself the amendment being modified Value A1 specifically may refer to following table one：

Wind shelves (%)	Wind blows (A1) to people	Pendulum wind (A1)	Wind sheltering (A1)
				1-20	-0.2	-0.1	0
21-40	-0.4	-0.2	0
				41-60	-0.6	-0.4	0
61-80	-0.8	-0.6	-0.1
				81-100	-1	-0.8	-0.1

Table one

According to table one, when the wind shelves of detection are 20%, if now air-conditioner is to blow people's pattern, now corresponding correction value A1 is -0.2；When the wind shelves of detection are 40%, if now air-conditioner is to keep away people's pattern, now corresponding correction value A1 is 0； When the wind shelves of detection are 60%, if now air-conditioner is pendulum wind pattern, now corresponding correction value A1 is -0.4；In the wind of detection When shelves are 100%, if now air-conditioner is to keep away people's pattern, now corresponding correction value A1 is -0.1.

In the present embodiment, the carry-on inductance value computation rule of concrete amendment is as follows：

AMV=A* (Ta+A1)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

In one embodiment, as shown in figure 4, on the basis of shown in above-mentioned Fig. 1, also including after step S10：

Step S40, when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Temperature and distance parameter near range intervals, user, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to repairing Just inductance value runs comfort mode with oneself.

In the present embodiment, the distance of user distance air-conditioner is by the wireless connection between Intelligent worn device and air-conditioner What the intensity of signal such as bluetooth was judged, at this point it is possible to be understood by, if Intelligent worn device is in non-wearing state, Should be in the position near user；In other embodiment, can be being detected according to the infrared sensor arranged on air-conditioner.

In the present embodiment, specifically may be used to feeling with oneself correction value A2 being modified apart from L according to user distance air-conditioner With referring to following table two：

User distance air-conditioning apart from L (m)	Correction A2
		0<L≤1	-2
1<L≤2	-1
		2<L≤3	-0.5
L>3	0

Table two

According to table two, it is 0 apart from the scope residing for L in user distance air-conditioning<During L≤1, corresponding correction A2 for- 2；User distance air-conditioning apart from the scope residing for L be 1<During L≤2, corresponding correction A2 is -1；In user distance air-conditioning Apart from the scope residing for L be 2<During L≤3, corresponding correction A2 is -0.5；In user distance air-conditioning apart from residing for L Scope is L>When 3, corresponding correction A2 is 0.

In the present embodiment, the carry-on inductance value computation rule of concrete amendment is as follows：

AMV=A* (Ta+A2)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

In one embodiment, as shown in figure 5, on the basis of shown in above-mentioned Fig. 3, also including after step S30：

Step S50, when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Temperature, wind speed parameter and distance parameter near range intervals, user, correspondence calculate the carry-on inductance value of amendment, and control sky Device is adjusted to run comfort mode according to carry-on inductance value is corrected.

In the present embodiment, if both having got wind speed parameter, the distance parameter of user distance air-conditioner is also got, then specifically The carry-on inductance value computation rule of amendment is as follows：

AMV=A* (Ta+A1+A2)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

It should be appreciated that when wind speed parameter and/or distance parameter is got, the value of A, B can be according to actual need Change, it is not absolutely required to identical with A, B value initial before carry-on inductance value amendment.

The present invention also provides a kind of air-conditioner 1, and with reference to Fig. 6, in one embodiment, the air-conditioner 1 includes：

Acquisition module 10, for the activity by the temperature near Intelligent worn device acquisition user and user；

In the present embodiment, Intelligent worn device can be Intelligent bracelet, intelligent watch etc., with step number, activity, sleep Various detection functions such as dormancy, heart rate, body temperature, illumination, environment noise, diet, and be wirelessly connected with air-conditioner.The intelligence is worn The equipment of wearing can be non-wearing state and wearing state, and when in non-wearing state, Intelligent worn device detection is user Neighbouring temperature, and when Intelligent worn device wearing state, detection be user shell temperature.The present invention is mainly with intelligence Illustrate as a example by temperature near wearable device detection user.In other embodiment, shape is worn when Intelligent worn device is in During state, shell temperature can be replaced the temperature near user.

In the present embodiment, the activity of user can be examined by the acceleration transducer arranged in Intelligent worn device Survey, it is, of course, also possible to calculate with reference to parameters such as step number, hearts rate.The present invention is not especially limited to this.

Computing module 20, for the temperature near the range intervals according to residing for the activity of the user and the user Degree, correspondence calculate carry-on inductance value, run comfort mode according to the carry-on inductance value to control air-conditioner.

In the present embodiment, live as the activity of user can be divided into quiet activity, low activity, middle activity and height Momentum etc. four is interval, certainly, in other embodiment, further can segment according to actual needs, therefore, it is not limited to Above-mentioned four embodiments enumerated.The interval different carry-on inductance value computation rules corresponding respectively of different activities, therefore, according to The corresponding computation rule of activity, you can calculate corresponding carry-on inductance value, may thereby determine that the carry-on impression of user, and then Control air-conditioner runs comfort mode according to carry-on inductance value.

For example, when the activity of user is 58, the activity is interval in quiet activity, therefore, it can according to corresponding Quiet activity computation rule, with reference to the temperature near the user of detection, calculates corresponding carry-on inductance value AMV.If -3≤AMV ＜ -2, corresponding user is felt as with oneself cold, and now air-conditioner can then run corresponding heating mode；If 0 ＜ AMV≤0.5, right The user for answering is felt as with oneself comfortably, and now air-conditioner continues to run with current operational mode；If 2 ＜ AMV≤3, corresponding use Family is felt as with oneself heat, and corresponding user is felt as with oneself heat, and now air-conditioner can then run corresponding refrigeration mode.Above pin Better simply several intervals are only enumerated to AMV, in order to reach the purpose for fine-tuning, further can be carried out to freezing or heating Fine setting, such as adjusts the parameters such as temperature, wind speed, wind direction.The present embodiment contrast does not remake concrete example.

The air-conditioner that the present invention is provided, by the activity of the temperature near Intelligent worn device acquisition user and user Amount, the then range intervals according to residing for the activity of the user and the temperature near the user, correspondence calculate with Body inductance value, runs comfort mode according to the carry-on inductance value to control air-conditioner.So, by the activity according to user and Temperature near user obtains carry-on inductance value, so can provide the user suitable comfortable ring with reference to the virtual condition of user Border, reaches the individual demand for meeting user, so as to improve Consumer's Experience.

In one embodiment, as shown in fig. 7, on the basis of shown in above-mentioned Fig. 6, the computing module 20 includes:

First computing unit 201, when being in first interval scope for the activity in the user, according to quiet activity Computation rule calculates the corresponding first carry-on inductance value；

In the present embodiment, first interval scope could be arranged to [0,85), when detection User Activity amount M be 58 when, then In first interval scope, the activity is quiet activity, and corresponding quiet activity computation rule is：

AMV1=A1*Ta-B1；

Wherein, A1, B1 are constant (being obtained according to experiment), and A1 could be arranged to 0.2389, B1 and can arrange 6.1558, will Temperature Ta near the user of detection is calculated the first carry-on inductance value AMV1 by substituting into the formula.Certainly, A1, B1 can be with Other reasonable values are set to according to actual needs, however it is not limited to the concrete numerical value enumerated.

Second computing unit 202, when being in second interval scope for the activity in the user, according to low activity Computation rule calculates the corresponding second carry-on inductance value；

In the present embodiment, second interval scope could be arranged to [85,120), when detection User Activity amount M be 93 when, Second interval scope is in then, the activity is low activity, and corresponding quiet activity computation rule is：

AMV1=A2*Ta-B2；

Wherein, A2, B2 are constant (being obtained according to experiment), and A2 could be arranged to 0.175, B2 and can arrange 3.643, by inspection Temperature Ta near the user of survey is calculated the second carry-on inductance value AMV2 by substituting into the formula.Certainly, A2, B2 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

3rd computing unit 203, when being in 3rd interval scope for the activity in the user, according to middle activity Computation rule calculates corresponding 3rd carry-on inductance value；

In the present embodiment, 3rd interval scope could be arranged to [120,150), when detection User Activity amount M be 123 When, then in 3rd interval scope, the activity is middle activity, and corresponding middle activity computation rule is：

AMV3=A3*Ta-B3；

Wherein, A3, B3 are constant (being obtained according to experiment), and A3 could be arranged to 0.174, B3 and can arrange 3.358, by inspection Temperature Ta near the user of survey is calculated the 3rd carry-on inductance value AMV3 by substituting into the formula.Certainly, A3, B3 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

4th computing unit 204, when being in four interval ranges for the activity in the user, according to high activity Computation rule calculates corresponding 4th carry-on inductance value.

In the present embodiment, the 4th interval range could be arranged to [150,180), when detection User Activity amount M be 157 When, then in the 4th interval range, the activity is high activity, and corresponding high activity computation rule is：

AMV4=A4*Ta-B4；

Wherein, A4, B4 are constant (being obtained according to experiment), and A4 could be arranged to 0.265, B4 and can arrange 4.158, by inspection Temperature Ta near the user of survey is calculated the 4th carry-on inductance value AMV4 by substituting into the formula.Certainly, A4, B4 can be with roots Other reasonable values are set to according to being actually needed, however it is not limited to the concrete numerical value enumerated.

In one embodiment, as shown in figure 8, on the basis of shown in above-mentioned Fig. 6, the air-conditioner also includes：

Correcting module 30, for when wind speed parameter is got, range intervals according to residing for the activity of the user, Temperature and wind speed parameter near user, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to amendment sense with oneself Value operation comfort mode.

In the present embodiment, wind speed parameter includes wind shelves, wind direction etc., according to wind speed parameter to feeling with oneself the amendment being modified Value A1 specifically may refer to following table one：

Wind shelves (%)	Wind blows (A1) to people	Pendulum wind (A1)	Wind sheltering (A1)
				1-20	-0.2	-0.1	0
21-40	-0.4	-0.2	0
				41-60	-0.6	-0.4	0
61-80	-0.8	-0.6	-0.1
				81-100	-1	-0.8	-0.1

Table one

According to table one, when the wind shelves of detection are 20%, if now air-conditioner is to blow people's pattern, now corresponding correction value A1 is -0.2；When the wind shelves of detection are 40%, if now air-conditioner is to keep away people's pattern, now corresponding correction value A1 is 0； When the wind shelves of detection are 60%, if now air-conditioner is pendulum wind pattern, now corresponding correction value A1 is -0.4；In the wind of detection When shelves are 100%, if now air-conditioner is to keep away people's pattern, now corresponding correction value A1 is -0.1.

In the present embodiment, the carry-on inductance value computation rule of concrete amendment is as follows：

AMV=A* (Ta+A1)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

In one embodiment, on the basis of shown in above-mentioned Fig. 8, the correcting module 30 is additionally operable to：

Scope area when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Between, the temperature near user, wind speed parameter and distance parameter, correspondence calculates the carry-on inductance value of amendment, and controls air-conditioner root Comfort mode is run according to carry-on inductance value is corrected.

In the present embodiment, the distance of user distance air-conditioner is by the wireless connection between Intelligent worn device and air-conditioner What the intensity of signal such as bluetooth was judged, at this point it is possible to be understood by, if Intelligent worn device is in non-wearing state, Should be in the position near user；In other embodiment, can be being detected according to the infrared sensor arranged on air-conditioner.

In the present embodiment, specifically may be used to feeling with oneself correction value A2 being modified apart from L according to user distance air-conditioner With referring to following table two：

User distance air-conditioning apart from L (m)	Correction A2
		0<L≤1	-2
1<L≤2	-1
		2<L≤3	-0.5
L>3	0

Table two

According to table two, it is 0 apart from the scope residing for L in user distance air-conditioning<During L≤1, corresponding correction A2 for- 2；User distance air-conditioning apart from the scope residing for L be 1<During L≤2, corresponding correction A2 is -1；In user distance air-conditioning Apart from the scope residing for L be 2<During L≤3, corresponding correction A2 is -0.5；In user distance air-conditioning apart from residing for L Scope is L>When 3, corresponding correction A2 is 0.

In the present embodiment, the carry-on inductance value computation rule of concrete amendment is as follows：

AMV=A* (Ta+A2)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

In one embodiment, as shown in figure 8, on the basis of shown in above-mentioned Fig. 6, the air-conditioner also includes：

Correcting module 30, for when the distance parameter of user distance air-conditioner is got, according to the activity of the user Temperature and distance parameter near the residing range intervals of amount, user, correspondence calculates the carry-on inductance value of amendment, and controls air-conditioning Device runs comfort mode according to carry-on inductance value is corrected.

In the present embodiment, if both having got wind speed parameter, the distance parameter of user distance air-conditioner is also got, then specifically The carry-on inductance value computation rule of amendment is as follows：

AMV=A* (Ta+A1+A2)-B；

Different activities corresponds to different A, B respectively, and specifically ibid, here is omitted.

It should be appreciated that when wind speed parameter and/or distance parameter is got, the value of A, B can be according to actual need Change, it is not absolutely required to identical with A, B value initial before carry-on inductance value amendment.

The present invention also provides a kind of sense control system 100 with oneself, with reference to Fig. 9, including air-conditioner 1 as above and with it is described The Intelligent worn device 2 that air-conditioner wirelessly connects, the Intelligent worn device 2 is for the user to the air-conditioner uploading detection Neighbouring temperature and the activity of user.

In the present embodiment, Intelligent worn device can be Intelligent bracelet, intelligent watch etc., with step number, activity, sleep Various detection functions such as dormancy, heart rate, body temperature, illumination, environment noise, diet, and be wirelessly connected with air-conditioner.The intelligence is worn The equipment of wearing can be non-wearing state and wearing state, and when in non-wearing state, Intelligent worn device detection is user Neighbouring temperature, and when Intelligent worn device wearing state, detection be user shell temperature.The present invention is mainly with intelligence Illustrate as a example by temperature near wearable device detection user.In other embodiment, shape is worn when Intelligent worn device is in During state, shell temperature can be replaced the temperature near user.

In the present embodiment, the Intelligent worn device 2 is for the temperature near the user to the air-conditioner uploading detection And the activity of user.The activity of user can be examined by the acceleration transducer arranged in Intelligent worn device Survey, it is, of course, also possible to calculate with reference to parameters such as step number, hearts rate.The present invention is not especially limited to this.

The preferred embodiments of the present invention are these are only, the scope of the claims of the present invention is not thereby limited, it is every using this Equivalent structure or equivalent flow conversion that bright description and accompanying drawing content are made, or directly or indirectly it is used in other related skills Art field, is included within the scope of the present invention.

Claims (11)

1. the carry-on sense control method of a kind of air-conditioner, it is characterised in that the carry-on sense control method of the air-conditioner include with Lower step：

By the temperature near Intelligent worn device acquisition user and the activity of user；

The temperature near range intervals and the user according to residing for the activity of the user, correspondence calculate sense with oneself Value, runs comfort mode according to the carry-on inductance value to control air-conditioner.

2. the carry-on sense control method of air-conditioner as claimed in claim 1, it is characterised in that the work according to the user The temperature near range intervals and the user residing for momentum, corresponding to the step of calculating carry-on inductance value includes：

The user activity be in first interval scope when, according to quiet activity computation rule calculate corresponding first with Body inductance value；

The user activity be in second interval scope when, according to low activity computation rule calculate corresponding second with Body inductance value；

The user activity be in 3rd interval scope when, according to middle activity computation rule calculate the corresponding 3rd with Body inductance value；

The user activity be in four interval ranges when, according to high activity computation rule calculate the corresponding 4th with Body inductance value.

3. the carry-on sense control method of air-conditioner as claimed in claim 1 or 2, it is characterised in that the air-conditioner it is carry-on Sense control method is further comprising the steps of：

When wind speed parameter is got, the temperature near range intervals, user according to residing for the activity of the user and Wind speed parameter, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to the carry-on inductance value operation comfort mode of amendment.

4. the carry-on sense control method of air-conditioner as claimed in claim 3, it is characterised in that the carry-on sensing control of the air-conditioner Method processed is further comprising the steps of：

Range intervals, use when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Temperature, wind speed parameter and distance parameter near family, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to amendment The comfort mode of inductance value operation with oneself.

5. the carry-on sense control method of air-conditioner as claimed in claim 1 or 2, it is characterised in that the air-conditioner it is carry-on Sense control method is further comprising the steps of：

Range intervals, use when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Temperature and distance parameter near family, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to the carry-on inductance value of amendment Operation comfort mode.

6. a kind of air-conditioner, it is characterised in that the air-conditioner includes：

Acquisition module, for the activity by the temperature near Intelligent worn device acquisition user and user；

Computing module, it is for the temperature near the range intervals according to residing for the activity of the user and the user, right Carry-on inductance value should be calculated, comfort mode is run according to the carry-on inductance value to control air-conditioner.

7. air-conditioner as claimed in claim 6, it is characterised in that the computing module includes:

First computing unit, when being in first interval scope for the activity in the user, calculates according to quiet activity and advises Corresponding first carry-on inductance value is calculated then；

Second computing unit, when being in second interval scope for the activity in the user, calculates according to low activity and advises Corresponding second carry-on inductance value is calculated then；

3rd computing unit, when being in 3rd interval scope for the activity in the user, calculates according to middle activity and advises Corresponding 3rd carry-on inductance value is calculated then；

4th computing unit, when being in four interval ranges for the activity in the user, calculates according to high activity and advises Corresponding 4th carry-on inductance value is calculated then.

8. air-conditioner as claimed in claims 6 or 7, it is characterised in that the air-conditioner also includes：

Correcting module, for when wind speed parameter is got, the range intervals, user according to residing for the activity of the user are attached Near temperature and wind speed parameter, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to the carry-on inductance value operation of amendment Comfort mode.

9. air-conditioner as claimed in claim 8, it is characterised in that the correcting module is additionally operable to：

Range intervals, use when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Temperature, wind speed parameter and distance parameter near family, correspondence calculate the carry-on inductance value of amendment, and control air-conditioner according to amendment The comfort mode of inductance value operation with oneself.

10. air-conditioner as claimed in claims 6 or 7, it is characterised in that the air-conditioner also includes：

Correcting module, for when the distance parameter of user distance air-conditioner is got, according to residing for the activity of the user Range intervals, the temperature near user and distance parameter, correspondence calculates the carry-on inductance value of amendment, and control air-conditioner according to Correct carry-on inductance value operation comfort mode.

11. a kind of sense control systems with oneself, it is characterised in that the carry-on sense control system is included as in claim 6 to 10 Air-conditioner and the Intelligent worn device being wirelessly connected with the air-conditioner described in any one, the Intelligent worn device are used for To the temperature near the user of the air-conditioner uploading detection and the activity of user.