CN104848483A - Air conditioner control method, device and system based on signal strength - Google Patents

Abstract

The invention discloses an air conditioner control method based on signal strength. The method comprises the following steps: detecting a signal strength change of a wearable device, and acquiring signal strengths of the wearable devices before and after the change; determining an air guide mode of the air conditioner based on the signals strengths before and after the change; and controlling the air conditioner to run based on the determined air guide mode of the air conditioner. The invention also discloses an air conditioner control device and an air conditioner control system based on the signal strength. The position change of a user indoor can be determined indirectly by the signal strength of the wearable device used by the user, thereby automatically adjusting the air guide mode of the air conditioner in order to prevent the user from being influenced by the current air guide mode, such as the inconvenience caused by guiding the air directly to the user; therefore, the comfort level of the customer use is increased.

Description

Based on air-conditioner control method, the Apparatus and system of signal strength signal intensity

Technical field

The present invention relates to field of air conditioner control, particularly relate to air-conditioner control method, Apparatus and system based on signal strength signal intensity.

Background technology

The air outlet of general air-conditioner is all facing to indoor user zone of action, and this just likely makes air-conditioner wind-guiding directly facing to user, if user is for a long time facing to air outlet, then likely causes user to catch a cold, dizzy etc. " air conditioner disease ".Although user manually remote control can change direction or the wind speed of current air-conditioner wind-guiding, if but user follow-up walk about again adjustment after air outlet time, now user needs again again to carry out remote manual control, therefore controls more loaded down with trivial details, thus have impact on user's experience.

Summary of the invention

Main purpose of the present invention is to provide a kind of air-conditioner control method based on signal strength signal intensity, Apparatus and system, and the air-out being intended to solve air-conditioner can not adjust automatically along with the change of customer location, and then affects the technical problem of user's experience.

For achieving the above object, the invention provides a kind of air-conditioner control method based on signal strength signal intensity, described air-conditioner control method comprises:

Detect the change in signal strength of wearable device, obtain the signal strength signal intensity of the described wearable device before and after change;

According to the described signal strength signal intensity before and after change, determine the wind-guiding pattern of air-conditioner;

According to the wind-guiding pattern of determined air-conditioner, control air-conditioner and run.

Preferably, described according to the described signal strength signal intensity before and after change, determine that the wind-guiding pattern of air-conditioner comprises:

According to the corresponding relation of described signal strength signal intensity and preset signal strength type, determine the type of described signal strength signal intensity before and after changing;

According to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determine the wind-guiding pattern of air-conditioner.

Preferably, the corresponding relation of the described type according to described signal strength signal intensity and default wind-guiding pattern, determine that the wind-guiding pattern of air-conditioner comprises:

When the type of described signal strength signal intensity does not change, determine that the wind-guiding pattern of air-conditioner remains unchanged.

Preferably, described preset signal strength type comprise by force, in, weak; The corresponding relation of the described type according to described signal strength signal intensity and default wind-guiding pattern, determine that the wind-guiding pattern of air-conditioner comprises:

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is strong, determine that the wind-guiding pattern of air-conditioner is for presetting the first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

Preferably, preset under the first wind-guiding pattern described, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

For achieving the above object, the present invention further provides a kind of air conditioner controlling device based on signal strength signal intensity, described air conditioner controlling device comprises:

Detection module, for detecting the change in signal strength of wearable device;

Acquisition module, for obtaining the signal strength signal intensity of the described wearable device before and after change;

Determination module, for according to the described signal strength signal intensity before and after change, determines the wind-guiding pattern of air-conditioner;

Control module, for the wind-guiding pattern according to determined air-conditioner, controls air-conditioner and runs.

Preferably, described determination module comprises:

Signal strength signal intensity type determining units, for the corresponding relation according to described signal strength signal intensity and preset signal strength type, determines the type of described signal strength signal intensity before and after changing;

Wind-guiding pattern determining unit, for according to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determines the wind-guiding pattern of air-conditioner.

Preferably, described wind-guiding pattern determining unit specifically for:

When the type of described signal strength signal intensity does not change, determine that the wind-guiding pattern of air-conditioner remains unchanged.

Preferably, the type of described preset signal strength comprise by force, in, weak; Described wind-guiding pattern determining unit concrete also for:

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is strong, determine that the wind-guiding pattern of air-conditioner is for presetting the first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

Preferably, preset under the first wind-guiding pattern described, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

Further, for achieving the above object, the present invention also provides a kind of air conditioner control system, comprise air-conditioner, described air conditioner control system also comprises wearable device, and described air-conditioner comprises wireless module, and described wireless module is connected with described wearable device signal; Described air-conditioner also comprises above-mentioned arbitrary described air conditioner controlling device based on signal strength signal intensity.

The present invention uses for reference the corresponding relation feature of signal strength signal intensity and distance, and between two terminal devices that namely signal connects, the nearlyer then signal strength signal intensity of distance is stronger.The present invention is by detecting the change in signal strength of the wearable device of user's use, obtain the signal strength signal intensity of the described wearable device before and after change, thus may correspond to the distance obtained corresponding between air-conditioner and wearable device, also can infer the position that user is current; And the wind-guiding pattern (being specially the change of operational factor) of air-conditioner is automatically determined according to the change of wearable device signal strength signal intensity, adapt to the change in location of user with correspondence, thus avoid wind-guiding on the impact of user, improve user's experience.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of air-conditioner control method one embodiment that the present invention is based on signal strength signal intensity;

Fig. 2 is the refinement schematic flow sheet of step S20 in Fig. 1;

Fig. 3 is that wind-guiding pattern corresponding under the first application scenarios in the present invention arranges schematic diagram;

Fig. 4 is that wind-guiding pattern corresponding under the second application scenarios in the present invention arranges schematic diagram;

Fig. 5 is that wind-guiding pattern corresponding under the 3rd application scenarios in the present invention arranges schematic diagram;

Fig. 6 is the functional mode schematic diagram of air conditioner controlling device one embodiment that the present invention is based on signal strength signal intensity;

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

Fig. 8 is the high-level schematic functional block diagram of air conditioner control system one embodiment of the present invention.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

With reference to the schematic flow sheet that Fig. 1, Fig. 1 are air-conditioner control method one embodiment that the present invention is based on signal strength signal intensity.In the present embodiment, the described air-conditioner control method based on signal strength signal intensity comprises:

Step S10, detects the change in signal strength of wearable device, obtains the signal strength signal intensity of the described wearable device before and after change;

Step S20, according to the described signal strength signal intensity before and after change, determines the wind-guiding pattern of air-conditioner;

Step S30, according to the wind-guiding pattern of determined air-conditioner, controls air-conditioner and runs.

Owing to having decay in various degree in transmission of wireless signals process, the signal strength signal intensity that also namely different signal link qualities is corresponding different, tests by signal strength signal intensity and distance being compared, the corresponding relation of signal strength signal intensity and distance can be drawn, that is, distance is nearer, and signal strength signal intensity is stronger; Otherwise signal strength signal intensity is more weak.Therefore, based on the corresponding relation of above-mentioned signal strength signal intensity and distance, correspondingly can obtain the distance corresponding with signal strength signal intensity by measuring and calculating signal strength signal intensity, this distance is also the distance in the present embodiment between air-conditioner and wearable device (user), is specifically reflected as the change in location of user.Also namely according to the change in location of user, the wind-guiding pattern of adjustment air-conditioner, thus avoid air outlet directly blow and have an impact to user.

Obtain manner for the signal strength signal intensity of wearable device comprises: one is, to match and set up after signal is connected at wearable device with air-conditioner, and wearable device can the current signal strength signal intensity of automatic feedback, thus air-conditioner can arrive by automatic acquisition; Two are, be connected if signal do not set up by wearable device and air-conditioner, now, automatic searching wearable device is also obtained the signal strength signal intensity of the wearable device searched by air-conditioner, only have a wearable device if current, then which can be used directly to obtain, and if currently there is multiple wearable device, then need according to preset rule, such as with the wearable device of strongest signal strength for benchmark etc.Specifically can set according to actual needs for signal strength signal intensity obtain manner, lower mask body, with the first, obtains the signal strength signal intensity of wearable device by setting up signal connected mode.

In the present embodiment, the change of the signal strength signal intensity of wearable device also namely the position of user there occurs change, now, by obtaining the signal strength signal intensity of the wearable device before and after change in signal strength, get final product the corresponding amplitude obtaining customer location and change, if the change in location amplitude of user is little, then determine the wind-guiding that need not adjust air-conditioner, otherwise, then adjustment is needed.Meanwhile, specifically determine the wind-guiding pattern of the air-conditioner corresponded according to the signal strength signal intensity of wearable device before and after the change obtained, finally again according to the wind-guiding pattern of the air-conditioner after determining, control the operation of air-conditioner.In addition, need to further illustrate, when wearable device is just connected with air-conditioner, the change in signal strength of the wearable device now the detected signal strength signal intensity that to be the signal strength signal intensity before connection be detects after zero to connection.

In the present embodiment, change in location that the is change in signal strength of wearable device is corresponding and user is united, thus have found a kind of preferred embodiment, thus can more easy quantification user change in location, and simultaneously can by this quantized result (change of customer location) Real-time Feedback to air-conditioner, thus the wind-guiding realizing air-conditioner carries out the object that adjusts automatically according to the change of customer location.By automatically adjusting the wind-guiding of air-conditioner, thus solve the inconvenience of the frequent manual adjustments of user, and further avoid because air-conditioner wind-guiding directly blows impact on user, improve user's experience.

With reference to the refinement step that Fig. 2, Fig. 2 are step S20 in Fig. 1.In the present embodiment, above-mentioned steps S20 comprises:

Step S201, according to the corresponding relation of described signal strength signal intensity and preset signal strength type, determines the type of described signal strength signal intensity before and after changing;

Step S202, according to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determines the wind-guiding pattern of air-conditioner.

In view of user is when wearing wearable device, certainly have the motion on limbs, obviously, namely change in signal strength caused under this type of sight can not, as the foundation of wind-guiding pattern determining air-conditioner, also need to ignore this type of situation.Meanwhile, consider user may just like standing up, little walk several steps etc. among a small circle in change in location, this type of situation due to amplitude of variation little, therefore, also need to ignore the adjustment to this type of sight.In addition, the difference (can be reflected by air-conditioner and user distance) of user region, the wind-guiding of the air-conditioner of its correspondence arranges also not identical.

Therefore, in view of above-mentioned actual requirement, in the present embodiment, divide to the distance between air-conditioner and wearable device (user), thus the determination that the wind-guiding of the determination and corresponding diverse location that realize the scope of positional change even amplitude is arranged.Signal strength signal intensity as shown in table 1 and default strength type mapping table.

Table 1

Signal strength signal intensity (dbm)	Be greater than 55	10～55	Be less than 10
				Distance (M)	Be less than 2	2～5	Be greater than 5
Signal strength signal intensity type	By force	In	Weak

The corresponding relation of above-mentioned table 1 just for illustrating the real data do not represented in the present invention, specifically can obtain according to reality measuring and calculating.In addition, it should be noted that further, the setting of above-mentioned strength type is only just for the type of distinguishing signal intensity, specifically also can more strength type be set according to actual needs, thus the precision distinguishing signal strength signal intensity can be improved, be also the Adjustment precision that corresponding raising changes customer location.

In addition, by the type of signal strength signal intensity and the corresponding relation of default wind-guiding pattern, as shown in table 2, the wind-guiding pattern corresponding to current signal strength type can be determined.

Wind-guiding pattern	First wind-guiding pattern	Second wind-guiding pattern	3rd wind-guiding pattern
				Signal strength signal intensity type	By force	In	Weak

Above-mentioned table 2 just for illustrating the corresponding relation not representing actual wind-guiding pattern in the present invention and signal strength signal intensity, specifically can be arranged according to actual needs.The optimum configurations difference that different wind-guiding pattern is corresponding, the angle, wind speed etc. of such as wind-guiding.

By the signal strength signal intensity of wearable device got, corresponding table 1, table 2 can obtain the wind-guiding pattern of mating with current signal strength simultaneously, and control air-conditioner according to the wind-guiding mode operation matched, thus realize the change in location according to user, the wind-guiding of adjustment air-conditioner automatically.

In the present embodiment, by by interval to different distance constant interval and signal strength signal intensity corresponding, thus divide different signal strength signal intensity types, to solve the wind-guiding offering question of the little adjustment of customer location amplitude of variation and the interval correspondence of diverse location.In the present embodiment, test the mapping table formed as shown in table 1, table 2 by experiment, thus form the signal strength signal intensity of wearable device and the indirect corresponding relation of wind-guiding pattern.Also namely, the wind-guiding pattern of the air-conditioner that the signal strength signal intensity (customer location) of different wearable devices is corresponding different.

What needs further illustrated is, although the various corresponding relations experimentally testing acquisition adopted in the present embodiment are relatively fixing in the adjustment of air-conditioner wind-guiding pattern, improve the flexibility of the present invention's application by the mode of corresponding increase to the diversified facilities of the wind-guiding pattern of the demarcation interval of signal strength signal intensity and correspondence.Meanwhile, aforesaid way of the present invention also can meet the requirement that user regulates for wind-guiding, is therefore preferred preferred embodiment.

Optionally, step S20 be it is also conceivable to obtain by the variable quantity of the signal strength signal intensity of wearable device and variation tendency the corresponding relation that signal strength signal intensity and wind-guiding adjust, such as, if the variable quantity of the signal strength signal intensity of wearable device is greater than a certain threshold value and variation tendency is signal strength signal intensity when strengthening, then corresponding angle or the wind speed turning down a predetermined threshold value; Or, if the variable quantity of the signal strength signal intensity of wearable device is greater than a certain threshold value and variation tendency is signal strength signal intensity when strengthening, then corresponding the operational mode of air-conditioner is adjusted to a set model.Realization and the present invention of this type of mode are similar, therefore do not do too much repeating.

Concrete example explanation will be carried out below to step S202 in above-described embodiment.

Embodiment 1: when the type of described signal strength signal intensity does not change, determines that the wind-guiding pattern of air-conditioner remains unchanged.

In the present embodiment, consider that user may exist the motion on limbs and then have influence on the change in signal strength of wearable device, user may have the activity in region among a small circle simultaneously, and above-mentioned sight does not need to carry out wind-guiding adjustment, therefore needs to ignore.Such as, adopt shown in table 1, the constant interval of signal strength signal intensity is divided, each interval corresponding signal strength signal intensity type, if signal strength signal intensity fluctuates in interval range, then corresponding signal strength signal intensity type does not change, thus can ignore produced problem in above-mentioned sight, avoids the problem needing frequent adjustment because signal strength signal intensity changes repeatedly.Also, namely when the type of described signal strength signal intensity does not change, finally determine that air-conditioner keeps current wind-guiding pattern constant.

Embodiment 2: when the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is strong, determines that the wind-guiding pattern of air-conditioner is for presetting the first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

Application scenarios schematic diagram of the present invention as illustrated in figs.3-5.

In the present embodiment, test according to actual experiment, preferably the signal strength signal intensity type of wearable device is preset as by force, in, weak three types, also namely the distance between wearable device and air-conditioner is divided into three intervals by correspondence, such division methods realizes easy, also can meet the basic demand that user adjusts for wind-guiding, be therefore best preferred embodiment of the present invention simultaneously.

Preferred further, presetting in the following way for wind-guiding pattern:

(1) preset under the first wind-guiding pattern described, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Now user is arranged in the A district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, due to user's current residing A zone position distance air-conditioner comparatively closely, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level upwards, as shown in Figure 3, simultaneously because user is close to air-conditioner, therefore wind speed is adjusted to low wind by correspondence.

(2) under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Now user is arranged in the B district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, because user's current residing B zone position distance air-conditioner is not very near, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level downward, as shown in Figure 4, simultaneously because user is not very near from air-conditioner, therefore wind speed is adjusted to apoplexy by correspondence.

(3) under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

Now user is arranged in the C district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, due to user's current residing C zone position distance air-conditioner comparatively far, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level, as shown in Figure 5, simultaneously because user is away from air-conditioner, therefore wind speed is adjusted to high wind by correspondence.

In the present embodiment, wind-guiding angle (preset first angle, preset second angle) corresponding to each wind-guiding pattern and wind speed (preset low wind, preset apoplexy, preset high wind) specifically can be preset according to actual needs, the benchmark preset requires, for avoiding the air outlet of air-conditioner directly to blow facing to user, also to ensure the use comfort of user simultaneously.Need further illustrate, the direction such as " level ", " upwards ", " downwards " described in the present embodiment is specifically reference with the direction under normal service condition corresponding to air-conditioner.

What needs further illustrated is, if because the position of user changes while needing the wind-guiding angle of the horizontal wind guide strip of adjustment, also need the horizontal hunting realizing horizontal wind guide strip, now, avoid user by under the precondition of directly blowing, for under different application scenario, may correspond to the pendulum angle scope of preset level wind guide strip, such as, for the first application scenario above-mentioned, now, the pendulum angle of corresponding horizontal wind guide strip is maximum can not exceed horizontal level.

With reference to the functional mode schematic diagram that Fig. 6, Fig. 6 are air conditioner controlling device one embodiment that the present invention is based on signal strength signal intensity.In the present embodiment, described air conditioner controlling device comprises:

Detection module 10, for detecting the change in signal strength of wearable device;

Acquisition module 20, for obtaining the signal strength signal intensity of the described wearable device before and after change;

Determination module 30, for according to the described signal strength signal intensity before and after change, determines the wind-guiding pattern of air-conditioner;

Control module 40, for the wind-guiding pattern according to determined air-conditioner, controls air-conditioner and runs.

In the present embodiment, the change of the signal strength signal intensity of wearable device also namely the position of user there occurs change, now, acquisition module 20 is by obtaining the signal strength signal intensity of the wearable device before and after change in signal strength, get final product the corresponding amplitude obtaining customer location and change, if the change in location amplitude of user is little, then determine the wind-guiding that need not adjust air-conditioner, otherwise, then the wind-guiding pattern adjusting air-conditioner is needed.Meanwhile, determination module 30 specifically determines the wind-guiding pattern of the air-conditioner corresponded according to the signal strength signal intensity of wearable device before and after the change obtained, and control module 40 according to the wind-guiding pattern of the air-conditioner after determining, controls the operation of air-conditioner again.In addition, need to further illustrate, when wearable device is just connected with air-conditioner, the change in signal strength of the wearable device now the detected signal strength signal intensity that to be the signal strength signal intensity before connection be detects after zero to connection.

In the present embodiment, change in location that the is change in signal strength of wearable device is corresponding and user is united, thus have found a kind of preferred embodiment, thus can more easy quantification user change in location, and simultaneously can by this quantized result (change of customer location) Real-time Feedback to air-conditioner, thus the wind-guiding realizing air-conditioner carries out the object that adjusts automatically according to the change of customer location.By automatically adjusting the wind-guiding of air-conditioner, thus solve the inconvenience of the frequent manual adjustments of user, and further avoid because air-conditioner wind-guiding directly blows impact on user, improve user's experience.

Optionally, with reference to Fig. 7, described determination module 30 comprises:

Signal strength signal intensity type determining units 301, for the corresponding relation according to described signal strength signal intensity and preset signal strength type, determines the type of described signal strength signal intensity before and after changing;

Wind-guiding pattern determining unit 302, for according to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determines the wind-guiding pattern of air-conditioner.

In view of user is when wearing wearable device, certainly have the motion on limbs, obviously, namely change in signal strength caused under this type of sight can not, as the foundation of wind-guiding pattern determining air-conditioner, also need to ignore this type of situation.Meanwhile, consider user may just like standing up, little walk several steps etc. among a small circle in change in location, this type of situation due to amplitude of variation little, therefore, also need to ignore the adjustment to this type of sight.In addition, the difference (can be reflected by air-conditioner and user distance) of user region, the wind-guiding of the air-conditioner of its correspondence arranges also not identical.

Therefore, in view of above-mentioned actual requirement, in the present embodiment, divide to the distance between air-conditioner and wearable device (user), thus the determination that the wind-guiding of the determination and corresponding diverse location that realize the scope of positional change even amplitude is arranged.

The signal strength signal intensity of wearable device of signal strength signal intensity type determining units 301 by getting, corresponding above-mentioned table 1 can obtain the type of described signal strength signal intensity before and after change simultaneously; Wind-guiding pattern determining unit 302 can obtain the wind-guiding pattern of mating with current signal strength again according to table 2, control module 40 controls air-conditioner according to the wind-guiding mode operation matched, thus realizes the change in location according to user, automatically the wind-guiding of adjustment air-conditioner.

In the present embodiment, by by interval to different distance constant interval and signal strength signal intensity corresponding, thus divide different signal strength signal intensity types, to solve the wind-guiding offering question of the little adjustment of customer location amplitude of variation and the interval correspondence of diverse location.In the present embodiment, test the mapping table formed as shown in table 1, table 2 by experiment, thus form the signal strength signal intensity of wearable device and the indirect corresponding relation of wind-guiding pattern.Also namely, the wind-guiding pattern of the air-conditioner that the signal strength signal intensity (customer location) of different wearable devices is corresponding different.

What needs further illustrated is, although the various corresponding relations experimentally testing acquisition adopted in the present embodiment are relatively fixing in the adjustment of air-conditioner wind-guiding pattern, improve the flexibility of the present invention's application by the mode of corresponding increase to the diversified facilities of the wind-guiding pattern of the demarcation interval of signal strength signal intensity and correspondence.Meanwhile, aforesaid way of the present invention also can meet the requirement that user regulates for wind-guiding, is therefore preferred preferred embodiment.

Further preferred, described wind-guiding pattern determining unit 302 specifically for: when the type of described signal strength signal intensity does not change, determine that the wind-guiding pattern of air-conditioner remains unchanged.

In the present embodiment, consider that user may exist the motion on limbs and then have influence on the change in signal strength of wearable device, user may have the activity in region among a small circle simultaneously, and above-mentioned sight does not need to carry out wind-guiding adjustment, therefore needs to ignore.Such as, adopt shown in above-mentioned table 1, the constant interval of signal strength signal intensity is divided, each interval corresponding signal strength signal intensity type, if signal strength signal intensity fluctuates in interval range, then corresponding signal strength signal intensity type does not change, thus can ignore produced problem in above-mentioned sight, avoids the problem needing frequent adjustment because signal strength signal intensity changes repeatedly.Also, namely when the type of described signal strength signal intensity does not change, finally determine that air-conditioner keeps current wind-guiding pattern constant.

Further preferred, described wind-guiding pattern determining unit 302 concrete also for: when the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and change is strong, determine that the wind-guiding pattern of air-conditioner is for default first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

Preferred further, presetting in the following way for wind-guiding pattern:

(1) preset under the first wind-guiding pattern described, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Now user is arranged in the A district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, due to user's current residing A zone position distance air-conditioner comparatively closely, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level upwards, as shown in Figure 3, simultaneously because user is close to air-conditioner, therefore wind speed is adjusted to low wind by correspondence.

(2) under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Now user is arranged in the B district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, because user's current residing B zone position distance air-conditioner is not very near, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level downward, as shown in Figure 4, simultaneously because user is not very near from air-conditioner, therefore wind speed is adjusted to apoplexy by correspondence.

(3) under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

Now user is arranged in the C district of figure, directly blow facing to user for avoiding the air outlet of air-conditioner, also ensure the use comfort of user simultaneously, now only need adjust the wind-guiding angle (also i.e. horizontal wind deflector towards) of horizontal wind guide strip, due to user's current residing C zone position distance air-conditioner comparatively far, therefore, preferably the wind-guiding angle of horizontal wind guide strip is adjusted to level, as shown in Figure 5, simultaneously because user is away from air-conditioner, therefore wind speed is adjusted to high wind by correspondence.

In the present embodiment, wind-guiding angle (preset first angle, preset second angle) corresponding to each wind-guiding pattern and wind speed (preset low wind, preset apoplexy, preset high wind) specifically can be preset according to actual needs, the benchmark preset requires, for avoiding the air outlet of air-conditioner directly to blow facing to user, also to ensure the use comfort of user simultaneously.

With reference to the high-level schematic functional block diagram that Fig. 8, Fig. 8 are air conditioner control system one embodiment of the present invention.In the present embodiment, described air conditioner control system comprises air-conditioner 210, wearable device 220; Wherein, air-conditioner 210 comprises wireless module 2101 and the air conditioner controlling device 2102 based on signal strength signal intensity.

Air-conditioner 210 is connected with wearable device 220 signal by wireless module 2101, such as Bluetooth signal, WiFi signal etc., and the signal strength signal intensity being obtained wearable device 220 by air conditioner controlling device 2102, simultaneously, air conditioner controlling device 2102 is by obtaining corresponding signal strength signal intensity type by the signal strength signal intensity of the wearable device 220 of acquisition coupling preset signal strength type, and again mate default wind-guiding pattern according to the signal strength signal intensity type matched, thus determine the wind-guiding pattern of air-conditioner 210, and the final air-conditioner 210 that controls is according to the wind-guiding mode operation determined, thus the wind-guiding that can realize air-conditioner 210 according to the change in signal strength (customer location change) of wearable device 220 the wind-guiding angle of automatic adjustable level wind deflector and wind speed, thus avoid the air outlet of air-conditioner 210 directly to blow facing to user, also ensure the use comfort of user simultaneously.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (11)

1. based on an air-conditioner control method for signal strength signal intensity, it is characterized in that, described air-conditioner control method comprises:

Detect the change in signal strength of wearable device, obtain the signal strength signal intensity of the described wearable device before and after change;

According to the described signal strength signal intensity before and after change, determine the wind-guiding pattern of air-conditioner;

According to the wind-guiding pattern of determined air-conditioner, control air-conditioner and run.

2. air-conditioner control method as claimed in claim 1, is characterized in that, described according to the described signal strength signal intensity before and after change, determines that the wind-guiding pattern of air-conditioner comprises:

According to the corresponding relation of described signal strength signal intensity and preset signal strength type, determine the type of described signal strength signal intensity before and after changing;

According to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determine the wind-guiding pattern of air-conditioner.

3. air-conditioner control method as claimed in claim 2, is characterized in that, the corresponding relation of the described type according to described signal strength signal intensity and default wind-guiding pattern, determines that the wind-guiding pattern of air-conditioner comprises:

When the type of described signal strength signal intensity does not change, determine that the wind-guiding pattern of air-conditioner remains unchanged.

4. air-conditioner control method as claimed in claim 2, it is characterized in that, described preset signal strength type comprises by force, in, weak; The corresponding relation of the described type according to described signal strength signal intensity and default wind-guiding pattern, determine that the wind-guiding pattern of air-conditioner comprises:

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is strong, determine that the wind-guiding pattern of air-conditioner is for presetting the first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

5. air-conditioner control method as claimed in claim 4, is characterized in that, described preset the first wind-guiding pattern under, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

6. based on an air conditioner controlling device for signal strength signal intensity, it is characterized in that, described air conditioner controlling device comprises:

Detection module, for detecting the change in signal strength of wearable device;

Acquisition module, for obtaining the signal strength signal intensity of the described wearable device before and after change;

Determination module, for according to the described signal strength signal intensity before and after change, determines the wind-guiding pattern of air-conditioner;

Control module, for the wind-guiding pattern according to determined air-conditioner, controls air-conditioner and runs.

7. air conditioner controlling device as claimed in claim 6, it is characterized in that, described determination module comprises:

Signal strength signal intensity type determining units, for the corresponding relation according to described signal strength signal intensity and preset signal strength type, determines the type of described signal strength signal intensity before and after changing;

Wind-guiding pattern determining unit, for according to the type of described signal strength signal intensity and the corresponding relation of default wind-guiding pattern, determines the wind-guiding pattern of air-conditioner.

8. air conditioner controlling device as claimed in claim 7, is characterized in that, described wind-guiding pattern determining unit specifically for:

When the type of described signal strength signal intensity does not change, determine that the wind-guiding pattern of air-conditioner remains unchanged.

9. air conditioner controlling device as claimed in claim 7, it is characterized in that, described preset signal strength type comprises by force, in, weak; Described wind-guiding pattern determining unit concrete also for:

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is strong, determine that the wind-guiding pattern of air-conditioner is for presetting the first wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is middle, determine that the wind-guiding pattern of air-conditioner is for presetting the second wind-guiding pattern;

When the type of the described signal strength signal intensity after the type of described signal strength signal intensity changes and changes is weak, determine that the wind-guiding pattern of air-conditioner is for presetting the 3rd wind-guiding pattern.

10. air conditioner controlling device as claimed in claim 9, is characterized in that, described preset the first wind-guiding pattern under, the horizontal wind deflector of described air-conditioner be oriented level upwards preset first angle and wind speed for presetting low wind;

Under described default second wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented the downward preset second angle of level and wind speed is default apoplexy;

Under described default 3rd wind-guiding pattern, the horizontal wind deflector of described air-conditioner is oriented level and wind speed is default high wind.

11. 1 kinds of air conditioner control systems, comprise air-conditioner, it is characterized in that, described air conditioner control system also comprises wearable device, and described air-conditioner comprises wireless module, and described wireless module is connected with described wearable device signal; Described air-conditioner also comprises arbitrary described air conditioner controlling device based on signal strength signal intensity in claim 6-10.