CN106524407A - Air conditioner control method and device based on wearable equipment and air conditioner - Google Patents
Air conditioner control method and device based on wearable equipment and air conditioner Download PDFInfo
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- CN106524407A CN106524407A CN201610970184.3A CN201610970184A CN106524407A CN 106524407 A CN106524407 A CN 106524407A CN 201610970184 A CN201610970184 A CN 201610970184A CN 106524407 A CN106524407 A CN 106524407A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2120/00—Control inputs relating to users or occupants
- F24F2120/10—Occupancy
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2120/00—Control inputs relating to users or occupants
- F24F2120/10—Occupancy
- F24F2120/14—Activity of occupants
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- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Atmospheric Sciences (AREA)
- Physics & Mathematics (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Signal Processing (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses an air conditioner control method based on wearable equipment. The method comprises the following steps: the wearable equipment detects user skin temperature values or environmental temperature values near users; temperature values Tb of the users within preset time after sleeping and temperature values Ta of the users in all time points in subsequent sleeping phase are obtained based on the detected temperature values; set temperature values of an air conditioner are corrected according to difference values between the temperature values Tb and the temperature values Ta and preset values A; and finally, the operation of the air conditioner is controlled based on corrected set temperature values. The invention further discloses an air conditioner control device based on the wearable equipment and the air conditioner. The method and the device can automatically correct the set temperatures of the air conditioner in the user sleeping process according to the cold and hot feelings of the users in the sleeping period, and solve the problem of uncomfortable use of the users caused by inaccurate adjustment due to no consideration of the cold and hot feelings of the users in a sleeping function in the prior art.
Description
Technical field
The present invention relates to air-conditioning equipment field, more particularly to it is a kind of based on the air-conditioner control method of wearable device, dress
Put and air-conditioner.
Background technology
Comfortableness for user during sleeping requires that present many air-conditioners both increase sleep function, for
User is initial in sleep and sleep several stages that are middle and wakeing up are adjusted to the design temperature of air-conditioner, forms setting
The sleep curve of temperature, to increase comfortableness of the user in sleep stage, but the sleep function presence of existing air-conditioner is following
Shortcoming:The default sleep curve of air-conditioner is not necessarily adapted to the specific requirement of user, and different user has difference to design temperature
Specific requirement value, by difference, some users like colder environment, some users to like inclined to the such as warm-cold sensitivity of different users
Warm environment.Therefore although the user having opens sleep function, but user still occurs discomfort in sleep procedure, needs
User manually adjusts design temperature, this inconvenience brought to user, even and user manually adjusted, might not
The warm-cold sensitivity for being exactly adapted to user itself is received, and causes user's needs frequently to adjust, it is impossible to be accurately adjusted to really comfortable setting
Temperature.
The above is only used for auxiliary and understands technical scheme, does not represent and recognizes that the above is existing skill
Art.
The content of the invention
Present invention is primarily targeted at providing a kind of air-conditioner control method based on wearable device, it is therefore intended that solution
Certainly cause the uncomfortable problem of user's sleep as existing sleep function can not meet the individual demand of user.
For achieving the above object, a kind of air-conditioner control method based on wearable device that the present invention is provided, the base
Comprise the following steps in the air-conditioner control method of wearable device:
Obtain the temperature value Tb of the user that wearable device is detected in the Preset Time after entering sleep;
Detect the temperature value Ta of sleep stage Each point in time user after the Preset Time, wherein the temperature value Tb and
Ambient temperature value near user's skin temperature value that temperature value Ta is detected for wearable device or user;
According to the difference of the temperature value Tb and temperature value Ta and preset value A's and, the set temperature value of air-conditioner is entered
Row amendment, wherein when air-conditioner runs refrigeration mode, the preset value A is positive;When air-conditioner runs heating mode,
The preset value A is negative value.
According to set temperature value control air-conditioner operation after amendment.
Preferably, the described air-conditioner control method based on wearable device, when the temperature value Tb is set for wearable
During ambient temperature value near the standby user for detecting, the span of the temperature value Tb is N1≤Tb≤N2, wherein, if inspection
The temperature value Tb for measuring<N1, takes Tb=N1, if the temperature value Tb for detecting>N2, takes Tb=N2;
When user's skin temperature value that the temperature value Tb is detected for wearable device, the second amendment temperature value
Scope is N3≤Tb≤N4, wherein, if the temperature value Tb for detecting<N3, takes Tb=N3, if the temperature value for detecting
Tb>N4, takes Tb=N4, wherein N1<N3, N2<N4.
After the Preset Time, sleep stage includes continuous first stage, second stage and phase III, wherein, it is described
In first stage, the absolute value of the preset value A was incremented by with the time;In the second stage, the absolute value of the preset value A is protected
Hold constant;In the phase III, the absolute value of the preset value A successively decreased with the time.
Preferably, it is described also to be included based on the air-conditioner control method of wearable device:
The sleep state information the sleep state information according to the user and temperature value Ta for obtaining user determines amendment
Value C;
According to the difference of the temperature value Tb and temperature value Ta and correction value C and preset value A's and value, to air-conditioner
Set temperature value is modified.
Preferably, it is described obtain user sleep state information and the sleep state information according to user and temperature value Ta are true
Periodical repair is specifically included on the occasion of step C:
The sleep state information for obtaining user be sound sleep or it is shallow sleep state, and judge default belonging to the temperature value Ta
Interval, determines correction value C according to affiliated pre-set interval and sound sleep or shallow status information of sleeping.
Preferably, it is described also to be included based on the air-conditioner control method of wearable device:
According to user, in sleep procedure, body temperature rhythm obtains correction value D;
According to the difference of the temperature value Tb and temperature value Ta and correction value D and preset value A's and value, air-conditioner is set
Constant temperature angle value is modified.
Preferably, in the sleep procedure for obtaining user, the related correction value D step of body temperature rhythm also includes:
The type parameter of user is obtained, with reference to the type parameter and user body temperature section in sleep procedure of the user
Rule, obtains correction value D.
Preferably, it is described also to be included based on the air-conditioner control method of wearable device:
Obtain the activity that wearable device detection user is entered before sleep;
Correction value E is determined according to the activity size;
According to the difference of the temperature value Tb and temperature value Ta and correction value E and preset value A's and value, air-conditioner is set
Constant temperature angle value is modified.
Preferably, also include before the step of activity size determines correction value E:
User type parameter is obtained, correction value E is determined according to the user type parameter and activity size.
Preferably, it is described to be specifically included according to air-conditioner set temperature value control air-conditioner operation after amendment:
According to the difference of current indoor ambient temperature value and the revised set temperature value, and previous secondary chamber inner ring
Border temperature value obtains cooler compressor running frequency variable quantity with the difference of current indoor ambient temperature value, according to the compression
Machine running frequency variable quantity obtains compressor operating frequency value, and controls compressor operating according to the compressor operating frequency.
Preferably, it is described also to be included according to compressor operating frequency variable quantity acquisition compressor operating frequency value:
Minimum of a value before obtaining in first compression machine running frequency and current compressor running frequency, according to the minimum of a value
Compressor operating frequency value is obtained with compressor operating frequency variable quantity.
For achieving the above object, a kind of air conditioner controlling device based on wearable device that the present invention is also provided, it is described
Included based on the air conditioner controlling device of wearable device:
Temperature value Tb acquisition modules, obtain the temperature of the user that wearable device is detected in the Preset Time after entering sleep
Angle value Tb;
Temperature value Ta detection modules, detect the temperature value Ta of sleep stage Each point in time user after the Preset Time,
Ring near user's skin temperature value that wherein described temperature value Tb and temperature value Ta is detected for wearable device or user
Border temperature value;
Correcting module, for the difference according to the temperature value Tb and temperature value Ta and preset value A's and, to air-conditioner
Set temperature value is modified, wherein when air-conditioner runs refrigeration mode, the preset value A is positive;When air-conditioner is transported
During row heating mode, the preset value A is negative value;
Control module, for according to set temperature value control air-conditioner operation after amendment.
Preferably, the correcting module also includes:
After the Preset Time, sleep stage includes continuous first stage, second stage and phase III, wherein, it is described
In first stage, the absolute value of the preset value A was incremented by with the time;In the second stage, the absolute value of the preset value A is protected
Hold constant;In the phase III, the absolute value of the preset value A successively decreased with the time.
Preferably, the air conditioner controlling device based on wearable device also includes sleep state acquisition module and amendment
Value C determining module,
The sleep state acquisition module, for obtaining the sleep state information of user;
The correction value C determining module, determines amendment for the sleep state information according to the user and temperature value Ta
Value C;
The correcting module is additionally operable to, according to the difference of the temperature value Tb and temperature value Ta and correction value C and default
Value A and the set temperature value of air-conditioner is modified.
Preferably, the air conditioner controlling device based on wearable device also includes correction value D acquisition module,
The correction value D acquisition module, for body temperature rhythm obtains correction value D in sleep procedure according to user;
The correcting module is additionally operable to, according to difference and correction value D and the preset value A of the temperature value Tb and temperature value Ta
Sum, the set temperature value of air-conditioner is modified.
Preferably, the air conditioner controlling device based on wearable device also includes activity acquisition module and correction value
E determining modules,
The activity acquisition module, for obtaining the activity that wearable device detection user is entered before sleep;
The correction value E determining module, for determining correction value E according to the activity size;
The correcting module is additionally operable to, according to difference and correction value E and the preset value A of the temperature value Tb and temperature value Ta
Sum, the set temperature value of air-conditioner is modified.
Preferably, the control module includes:
According to the difference of current indoor ambient temperature value and the revised set temperature value, and previous secondary chamber inner ring
Border temperature value obtains cooler compressor running frequency variable quantity with the difference of current indoor ambient temperature value, according to the compression
Machine running frequency variable quantity obtains compressor operating frequency value, and controls compressor operating according to the compressor operating frequency.
Preferably, it is described also to be included according to compressor operating frequency variable quantity acquisition compressor operating frequency value:
Minimum of a value before obtaining in first compression machine running frequency and current compressor running frequency, according to the minimum of a value
Compressor operating frequency value is obtained with compressor operating frequency variable quantity.
For achieving the above object, a kind of air-conditioner that the present invention is also provided, the air-conditioner includes above-mentioned based on wearable
The air conditioner controlling device of equipment.
The present invention by the ambient temperature value near user's skin temperature value or user is detected based on wearable device, and
Temperature value based on above-mentioned detection obtains the temperature value Tb and follow-up sleep stage of user in the Preset Time after entering sleep
The temperature value Ta of Each point in time user, and the difference according to temperature value Tb and temperature value Ta and preset value A's and to air-conditioner
Set temperature value be modified, be finally based on the control air-conditioner operation of revised set temperature value, can be existed according to user
Warm-cold sensitivity during sleep is corrected automatically by the design temperature to air-conditioner, solve sleep function of the prior art because
Warm-cold sensitivity impression not account for user is adjusted inaccurate and causes the uncomfortable problem of user.
Description of the drawings
Fig. 1 is schematic flow sheet of the present invention based on the first embodiment of the air-conditioner control method of wearable device;
Fig. 2 is to air-conditioner setting temperature in first embodiment of the present invention based on the air-conditioner control method of wearable device
The exemplary plot that degree is modified;
Fig. 3 is to air-conditioner setting temperature in first embodiment of the present invention based on the air-conditioner control method of wearable device
The exemplary plot that line of writing music is modified;
Fig. 4 is schematic flow sheet of the present invention based on the 3rd embodiment of the air-conditioner control method of wearable device;
Fig. 5 is to air-conditioner setting temperature in 3rd embodiment of the present invention based on the air-conditioner control method of wearable device
The exemplary plot that degree is modified;
Fig. 6 is to air-conditioner setting temperature in 3rd embodiment of the present invention based on the air-conditioner control method of wearable device
The exemplary plot that line of writing music is modified;
Fig. 7 is that functional module of the present invention based on the first embodiment of the air conditioner controlling device of wearable device is illustrated
Figure;
Fig. 8 is the present invention based on wearable device and the annexation schematic diagram of air-conditioner;
Fig. 9 is the present invention based on wearable device and another kind of annexation schematic diagram of air-conditioner;
Figure 10 is that functional module of the present invention based on the 3rd embodiment of the air conditioner controlling device of wearable device is illustrated
Figure;
Figure 11 is the present invention based on wearable device and another kind of annexation schematic diagram of air-conditioner.
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 air-conditioner control method based on wearable device for proposing according to embodiments of the present invention is described with reference to the accompanying drawings
And air-conditioner.
Illustrated based on the air-conditioner control method of wearable device to what the embodiment of the present invention was proposed first.Fig. 1 is
The schematic flow sheet of the air-conditioner control method based on wearable device of first embodiment of the invention.As shown in figure 1,
The embodiment of the present invention is comprised the following steps based on the air-conditioner control method of wearable device:
Step S10, obtains the temperature value Tb of the user that wearable device is detected in the Preset Time after entering sleep.
User detects the temperature value of user in an incipient Preset Time after the sleep function for opening air-conditioner
Tb, temperature value Tb herein are the detection temperature values that user is initially entered in one Preset Time of sleep, and such as Preset Time can be with
20-100 minutes are set to, after the sleep function that user opens air-conditioner, by wearable within the 20-100 minutes for starting
Equipment detects temperature value.This temperature value can be in this Preset Time, select one of time point to obtain a value,
Can also be that the multiple values obtained in this Preset Time carry out numerical value again and process a value obtaining, such as these multiple values are asked
With the value finally obtaining of averaging.
Wearable device can be bracelet, intelligent watch and the therapeutic medical limbs that can be worn or be worn on user
On equipment, inside its wearable device have temperature sensor.When user wears, the wearable device worn can be passed through
The skin temperature value of detection user, i.e., contacted with skin at detection user's wrist by bracelet using the temperature detecting function of bracelet
Skin temperature.When user does not wear, the ambient temperature value that can be detected near user is placed near user.For example, user
Evening, bracelet was placed on the ambient temperature value that bedside detects user's near its circumference.Referring herein to detection user near environment temperature
Angle value refers to that wearable device is closer from user, is in same environment space with user, such as wearable device and user
It is in together a room and close to user such as scope of the distance users within 1 meter.
By identifying user whether wear wearable device can determine whether out wearable device detection be user skin temperature
Ambient temperature value near angle value or user.So that wearable device is as bracelet as an example, examined by the acceleration transducer of bracelet
Whether the accekeration of survey is consistent with the default characteristic value of bracelet, can determine whether out user in conjunction with whether bracelet detects heart rate value
Whether bracelet is worn;Or whether the scope of the temperature value detected by the temperature sensor of bracelet meets human skin temperature's phase
The characteristic value of pass can also judge whether user wears bracelet.Detect after whether user wear wearable device, if known
Not Wei user do not wear, you can what judgement obtained the detection of now wearable device is the ambient temperature value near user, if known
Wei not wear, sensor of the wearable device only comprising detection user's skin temperature then now can determine wearable setting
Standby detection be user skin temperature value, if wearable device includes the sensor of 2 or more than 2, can be preferential
The sensor temperature values of detection user's skin temperature are obtained, because tightr with customer relationship using user's skin temperature value, is needed
The detection temperature value of this sensor is obtained preferentially.
Accurate for detection temperature Value Data, the value of the temperature value to detecting is provided with a bound scope,
Specially:
When user does not wear wearable device, now what wearable device was detected is the environment temperature near user
Value, given scope is N1≤Tb≤N2, i.e., when detecting temperature value Tb<N1, takes Tb=N1;When the temperature value for detecting
Tb>N2, takes Tb=N2, and in the case of other, Tb is identical with the temperature value for detecting.
When user wears wearable device, what now wearable device was detected is the skin temperature value of user, is given
Scope be N3≤Tb≤N4, i.e., when detecting temperature value Tb<N3, takes Tb=N3, as the temperature value Tb for detecting>N4,
Tb=N4 is taken, Tb is identical with the temperature value for detecting in the case of other.
Because the skin temperature of user is higher than ambient temperature under normal circumstances, the two value ranges are not
With, and user wear wearable device restriction scope it is higher than the scope for not wearing restriction, i.e. N1<N3, N2<N4.For example:
Open under refrigeration mode in air-conditioner, user by wearing during bracelet, detect skin temperature range can be 28 DEG C≤Tb≤
34 DEG C, user does not wear bracelet, and when bracelet is placed near user, the ambient temperature range of the user's near its circumference for detecting can be with
It is 22 DEG C≤Tb≤26 DEG C.
Step S20, detects the temperature value Ta of sleep stage Each point in time user after Preset Time.
After the temperature value Tb in Preset Time of the user after sleep is initially entered is obtained in S10 steps, sleep in user
The temperature value of user is detected as Ta by wearable device in the follow-up time of dormancy, this temperature identical with the acquisition principle of Tb
Value is also user's skin temperature value or the ambient temperature value near user.The detection of Ta temperature values can be in sleep stage
Continuous real-time detection, now Each point in time is continuous;May also be at interval of the short Preset Time of comparison such as 10 minutes
Detection once, or at interval of the short Preset Time of comparison as in 10 minutes continuous detection processed again and such as averaged
A value is obtained, now Each point in time is discontinuous.
Step S30, according to the difference of temperature value Tb and temperature value Ta and preset value A's and set temperature value to air-conditioner
It is modified.
Temperature value Tb and user of the user in the Preset Time for entering sleep are detected by wearable device to exist
After the temperature value Ta detected in sleep procedure, air-conditioner design temperature is run using the two difference and preset value A
Temperature is modified, and specifically can carry out simple computation amendment by below equation:TS (n)=TS (n-1)+Tb-Ta+A, wherein
TS (n) is revised set temperature value, and TS (n-1) is current set temperature value.Due to the skin temperature or attached of user
Near environment temperature is change in user's sleep procedure, with the warm-cold sensitivity of user by very big, so by just entering in user
Enter reference value Tb detected in a Preset Time such as 1 hour of sleep, using the detected value Ta during whole sleep, lead to
Cross the difference of the two can just reflect user in sleep procedure with just starting difference when falling asleep, this difference embodies the cold of user
Thermal sensation is received, and preset value A is with user, and time during sleeping is different and adjust, and the size of its value was being slept according to human body
Comfort temperature change in journey is required, is freezed different with heating mode, as the preset value A for changing embodies sleep quality process
In temperature change, the design temperature of air-conditioner is corrected automatically hence with Tb-Ta+A, with fit human body sleep
During Temperature changing cause warm-cold sensitivity change, with this solve due to air-conditioner in sleep procedure due to user oneself hand
Dynamic adjustment design temperature is not suitable for the discomfort caused by the warm-cold sensitivity of user itself.
Specifically in cooling mode, the Temperature changing situation according to human body in sleep procedure, preset value A are positive number
Value, different and different with user's length of one's sleep, concrete preset value A can be spaced a Preset Time and set temperature value is entered
Row amendment, such as corrects once every half an hour or 1 hour, and such as preset value A passed through below table to setting temperature every 1 hour
Degree is modified:
In a heating mode, the Temperature changing situation according to human body in sleep procedure, preset value A are negative value, with
User's length of one's sleep it is different and different, a Preset Time can be spaced with refrigeration mode preset value A set temperature value is entered
Row amendment, such as corrects once every half an hour or 1 hour, and such as preset value A passed through below table to setting temperature every 1 hour
Degree is modified:
During being slept to user in a heating mode with reference to formula TS (n)=TS (n-1)+Tb-Ta+A by above table
Set temperature value is corrected.
Understand with reference to situations of change of the preset value A during sleeping under above-mentioned refrigeration and heating mode, the size of preset value A
Change with the length of one's sleep of user, specifically the sleep of user can be divided into continuous three phases, the first stage is pre-
If the order of magnitude of value A is incremented by over time, the order of magnitude of second stage preset value A keeps constant, the 3rd
The stage order of magnitude of preset value A successively decreases over time, and such as under refrigeration mode, preset value A sleeps into fashionable relative
Between 0-4 hours its absolute values be to increase, in 4-7 hours, its absolute value keeps constant, its absolute value is protected after 7 hours
Hold and successively decrease.
It should be noted that current set temperature value TS (n-1) can be design temperature of the user before sleep is entered
Value, if user does not manually adjust in sleep procedure, this design temperature is changeless.The temperature value in sleep procedure
Difference Tb-Ta of Tb and temperature value Ta and preset value be A's and i.e. Tb-Ta+A is modified to which so that the design temperature of user
Change in sleep procedure.It is illustrated in figure 2 the design temperature in front and back being modified to design temperature in cooling mode
Change schematic diagram, the fixed temperature value that solid line is set before sleep for user, this temperature value are straight in user's sleep procedure
Be always maintained to sleep end it is constant, dotted line be difference based on temperature value Tb and temperature value Ta with preset value A's and i.e. Tb-Ta
+ A relatively original user's entrance sleeps after being modified to design temperature by above-mentioned formula TS (n)=TS (n-1)+Tb-Ta+A
When the part that changes of fixed design temperature.For example, user prepares sleep (i.e. 22 at night:00) open air-conditioner sleep
Function passes through remote control or mobile terminal device and arranges air-conditioner to arrange 26 DEG C of refrigeration mode design temperature, and user is by bracelet
It is placed on bedside.Tb is 22:00-22:Environment near the user that the bracelet of user is detected in front half an hour between 30
Temperature, 23:Neighbouring ambient temperature value Ta and Tb during user's sleep of 00 moment bracelet detection is equal, and preset value A is 0,
According to above-mentioned formula, Tb-Ta+A is zero, therefore without being modified to design temperature TS in this time, TS keeps constant.
24:Neighbouring ambient temperature value Ta during the user of 00 moment bracelet detection sleeps is raised, and causes Ta and Tb differences Tb-Ta to become
Negative value is Tb-Ta=-0.4, and preset value A is 0.5, by the above formula design temperature TS=26-0.4+0.5=26.1,
Therefore design temperature is modified to into 26.1 DEG C.Hereafter 1:Neighbouring environment temperature during user's sleep of 00 moment bracelet detection
Value Ta declines, now Tb and Ta differences Tb-Ta=0.2, and preset value A is 0.5, by the above formula design temperature TS=
26.1+0.2+0.5=26.8, therefore design temperature is modified to into 26.8 DEG C, other dotted portions can be then obtained by that analogy
Design temperature correction value.The display portion or mobile terminal device of air-conditioner can be passed through through revised design temperature
Check.
In another embodiment, current set temperature value TS (n-1) can be setting sleep of the user before sleep is entered
Temperature curve, during user sleeps, this set temperature value was changed with the length of one's sleep of user preset, through sleep procedure
The difference of middle temperature value Tb and temperature value Ta and preset value A's and Tb-Ta+A which is modified so that the sleep temperature of user
Curve changes in sleep procedure.As shown in figure 3, the sleep temperature curve that solid line is user to be set before sleep is such as
Set by remote control or mobile terminal device, this temperature value in user's sleep procedure until sleep end be according to
The sleep at family, middle sleep, exit sleep three phases and change, dotted line is the difference based on temperature value Tb and temperature value Ta
With preset value A's and the temperature portion that changes after Tb-Ta+A is modified to above-mentioned scenario earthquake by above-mentioned formula
Point, which is identical with specific reference to the amendment of Tb-Ta+A and the situation of Fig. 2, is not repeating.In revised sleep temperature curve
Set temperature value can be checked by the display portion of mobile terminal device or air-conditioner, or revised sleep temperature
Curve can be checked by mobile terminal device.
It should be noted that to interval time of the amendment of design temperature for preset value A interval adjustment time, such as basis
In above table, the adjustment time of preset value A is defined, and every adjustment in 1 hour once, so accomplishes when preset value A is modified
It is synchronous that set temperature value is modified.
Step S40, controls air-conditioner operation according to revised set temperature value.
After obtaining revised set temperature value in step s 30, for transducer air conditioning, combination is now needed to pass through
The situation of change and indoor environment temperature and revised set temperature value of the indoor environment temperature T1 values of air-conditioner detection
Situation of change obtains the variable quantity of the needs of compressor operating frequency, and is calculated compressor next step need according to this variable quantity
Frequency values to be run, the relatively conventional simple situation of change control according to design temperature with indoor environment temperature of this scheme are pressed
The running frequency of contracting machine can more be fitted the situation of change of indoor environment temperature, control the interior obtained after compressor operating with this
Variation of ambient temperature more quickly follows revised design temperature change, comfortable when user sleeps so as to further improve
Property require.
Specific control rule is as follows:
Air-conditioner real-time detection ambient temperature value, according to current indoor ambient temperature value and revised set temperature value
Difference obtains indoor environment temperature value and revised set temperature value situation of change, and according to previous indoor environment temperature value
The situation of change of indoor environment temperature is obtained with the difference of front indoor environment temperature value, is two differences according to the two situations of change
The size of value obtains the variable quantity of compressor frequency, and its acquisition process can be calculated by formula or using the method tabled look-up
Obtain, a part of frequency variation Δ F (Hz) for for example obtaining compressor in the method tabled look-up in cooling mode is as follows:
In above table, T1 (n)-TS (n) represents the difference of current indoor temperature value T1 and revised set temperature value
(unit DEG C), T1 (n-1)-T1 (n) represent the difference (unit of previous indoor environment temperature value and current indoor ambient temperature value
DEG C), different compressor frequency variation deltas F are corresponded to by the difference of the two difference, relatively compressor frequency control in the past
According only to indoor environment temperature and the situation of change of set temperature value, the situation of change in front and back that increased indoor environment temperature comes comprehensive
Conjunction obtains the frequency variation of compressor, more accurate with the compressor frequency regulated quantity that this obtains.
Compressor next step is obtained according to compressor frequency variation delta F needs the frequency F value of operation, can be by simple
Calculating such as F (n)=F (n-1)+Δ F obtain, wherein F (n) is next step compressor operating frequency value, and F (n-1) is current pressure
Contracting machine running frequency value, or can also be calculated with reference to situation of change before and after compressor operating frequency, such as F (n)=
Δ F × K+min (F (n-2), F (n-1)), wherein F (n-2) are the running frequency value of front first compression machine, min (F (n-2), F
(n-1) little one taken in the running frequency and current compressor running frequency value of front first compression machine is represented, K is Δ F's
Correction factor, needs to determine by previous experiments, and this kind of scheme is calculated before and after the running frequency of compressor considers which and changes feelings
Condition, it is more accurate with the compressor frequency that this obtains.
In the present embodiment, by the environment temperature near user's skin temperature value or user is detected based on wearable device
It is worth, and the temperature value based on above-mentioned detection obtains the temperature value Tb of user and follow-up sleep in the Preset Time after entering sleep
The temperature value Ta of stage Each point in time user, and the difference according to temperature value Tb and temperature value Ta and preset value A's and right
The set temperature value of air-conditioner is modified, and is finally based on revised set temperature value control air-conditioner operation, due to temperature
The difference and preset value A of value Tb and temperature value Ta embodies warm-cold sensitivity of the user during sleeping and receives, therefore, it is possible to according to
Family itself warm-cold sensitivity receives the temperature value for carrying out adjust automatically user setting, improves the comfortableness in user's sleep procedure.
Further, based on wearable device air-conditioner control method second embodiment, based on the invention described above base
In the air conditioning control method first embodiment of wearable device, in the present embodiment, except according to temperature value Tb and temperature value Ta
Difference and preset value A's and value, the set temperature value of air-conditioner is modified outer, can be combined with other parameters to setting
Constant temperature degree is modified, and specific parameter includes correction value C, correction value D and correction value E.Individually below the correction value is obtained
Take mode to be described one by one.
(1) correction value C
In the present embodiment, correction value C can be determined as follows:
The sleep state information the sleep state information according to the user and temperature value Ta for obtaining user determines amendment
Value C.
Specifically, the sleep state information of user includes quality state information of the user in sleep procedure, such as just sleep
State, it is shallow sleep state, deep sleep, awake state, its sleep state information can be detected by wearable device, such as by using
Acceleration transducer in the bracelet that family is worn is detected and the process chip with reference to bracelet is calculated or judges to obtain, or enters one
Walk the heart rate data for measuring user with reference to the photo-electric heart rate sensor in bracelet to judge to obtain.By what is obtained in above-mentioned steps
Temperature value Ta, when determining correction value C with reference to sleep state information, can divide several areas according to the scope of temperature value Ta in advance
Between, which is interval to judge ownership according to the temperature value Ta for detecting, then according to affiliated pre-set interval and sleep state information
Determine correction value C.Below table process is specifically may be referred to for example:
Ta(℃) | Ta<21 | 21≤Ta < 22.5 | 22.5≤Ta≤26 | 26 < Ta < 27.5 | Ta>27.5 |
It is shallow to sleep C | 1 | 0.5 | 0 | 0 | -0.4 |
Sound sleep C | 0.5 | 0.25 | 0 | -0.25 | -0.5 |
Wake up | 0.3 | 0.2 | 0 | -0.3 | -0.7 |
In above table by the scope of temperature value Ta be divided into 5 it is interval, further according to user sleep in it is shallow sleep, sound sleep or
There is corresponding correction value C in each interval of status information correspondence wakeeed up, and such as currently detected temperature value Ta is 26 DEG C, current to use
State is slept in shallow in family, it is determined that correction value C for obtaining is 0, can be drawn by above table, when user sleeps state in shallow
When, than in the big of deep sleep, certainly as the interval division of temperature value Ta is fewer, there is the two phase in its correction value C
Deng situation, if interval division is more, unequal interval is more, such as the interval of more than 10, then shallow amendment when sleeping
The value C chance bigger than during sound sleep is more.
As warm-cold sensitivity of the user in different sleep states is by difference, therefore above-mentioned basis monitors the temperature of user
Value Ta combines correction value C that the sleep state of user is obtained, and embodies difference of the user in the warm-cold sensitivity of sleep different phase, because
Warm-cold sensitivity of the user between the perdormitum of more can fitting when this is modified design temperature with reference to correction value C changes, and enters one
Step improves comfortableness of the user during sleeping.
When changing due to the sleep state of user, the change of the warm-cold sensitivity of user is influenced whether, if sleep state is constant
When do not interfere with the change of warm-cold sensitivity state, therefore only when sleep state changes correction value C just effectively, if sleep
It is invalid that state does not change then correction value C, such as detects user when the state just fallen asleep is changed into shallow sleeping, now detection temperature value Ta
For 26 DEG C, it is 0 to be tabled look-up by above table and obtain now correction value C, and now just effectively, during falling asleep, correction value C is correction value C
Invalid.
(2) correction value D
In the present embodiment, correction value D can be obtained in the following way:
According to user, in sleep procedure, body temperature rhythm obtains correction value D.
Specifically, the body temperature rhythm of human body reflects human body Temperature changing rule in 24 hours a day, its Changing Pattern
The active state of human body is embodied, therefore the sleep state of human body also has relation with Temperature changing, such as body temperature will when just falling asleep
It is higher than the state of sleeping soundly, body temperature when waking up also than sleeping soundly when fever, cut one fixed rule of presence i.e. body temperature rhythm, because
This needs to repair the set temperature value of the air-conditioner in sleep procedure according to the body temperature rhythm change during sleep quality
Just, that is, need related correction value D of body temperature rhythm in the sleep procedure for obtain user.Specific acquisition modes can exist according to human body
In sleep procedure, body temperature rhythm Changing Pattern to be calculating or table look-up, the concrete time such as slept according to user by lookup table mode
With hour as interval, correction value D is obtained according to the body temperature rhythm and pace of moving things as follows:
In above table, according to sleep quality from fall asleep to wakeing up during human body body temperature rhythm change, due to human body
Body temperature is with the intensification body temperature step-down of Depth of sleep, therefore the comfort temperature that human body needs is risen with the intensification of Depth of sleep
High, thus the value of correction value D is raised with the intensification of Depth of sleep.Specific user as shown above is from 22:00
Start to fall asleep, to 1:Deep sleep is reached during 00, now the body temperature of human body gradually step-down, thus correction value D gradually rises, from
Morning 6:00 to 8:00 body temperature that gradually stage of wakeing up is used for gradually rises, thus correction value D is gradually lowered.
Further, when obtaining correction value D of body temperature rhythm correlation in the sleep procedure of user, first obtain user type ginseng
Number, according to user type parameter acquiring correction value D.Because the body temperature rhythm of different types of user also has little difference, such as
Virgin body temperature is higher than teenager, and teen-age body temperature is higher than the elderly, therefore the body temperature of these different types of user crowds
The rhythm and pace of moving things is different when changing, and needs do according to different user types and process respectively, such as with two kinds of users of Children and teenager
As a example by type, correction value D of the body temperature rhythm correlation in its sleep procedure is as follows:
Sleep real-time time | Children's correction value D | Teenager's correction value D |
22:00-23:00 | 0.2 | 0.3 |
23:00-24:00 | 0.3 | 0.4 |
0:00-1:00 | 0.3 | 0.4 |
1:00-2:00 | 0.4 | 0.5 |
2:00-3:00 | 0.4 | 0.5 |
3:00-4:00 | 0.5 | 0.5 |
4:00-5:00 | 0.5 | 0.5 |
5:00-6:00 | 0.4 | 0.5 |
6:00-7:00 | 0.1 | 0.2 |
7:00-8:00 | -0.2 | -0.1 |
By upper table it is known that children are from falling asleep to sound sleep and its correction value D is lower than teen-age during wakeing up.
Body temperature rhythm change during being slept due to user is different, therefore the change of its body temperature rhythm also embodies user's
Warm-cold sensitivity is received difference, therefore the correction value D parameter of the body temperature rhythm change by embodiment user during sleeping to combine to sky
When adjusting the design temperature of device to be modified, the warm-cold sensitivity that body temperature rhythm change of the human body in sleep procedure of can fitting causes becomes
Change, further improve comfortableness of the user during sleeping.
(3) correction value E
In the present embodiment, correction value E can be determined as follows:
Obtain the activity that wearable device detection user is entered before sleep;Correction value E is determined according to activity size.
Specifically, as the size of the activity before user's sleep has also had influence on the warm-cold sensitivity shape in user's sleep procedure
State, such as user's Comparison of Gardening Activities on daytime are more, and volume of perspiration is big, then the stage of falling asleep needs the relatively low room temperature that compares during sleep evening
The sleep of user could so be promoted, it is therefore desirable to determine a correct value parameter with to air-conditioner according to the activity of user
Design temperature is modified, and specifically determines that correction value E simply can be examined according to wearable device according to the size of activity
Measure the motion step number before sleep to determine how many motion step numbers of user is divided into default several intervals such as, to different
Pre-set interval determines different correction values E during user's sleep, as shown in following table:
It is in above table, how many according to the motion step number that the user that wearable device is detected is entered before sleep, it is divided into not
Same several pre-set intervals, then determine the correction value E size during user sleeps according to different pre-set intervals.From the above
Form can draw, when the activity of user is bigger, the effective time of its correction value E is longer, when the activity it is less, then
The effective time being modified to design temperature by correction value E is shorter, such as when the motion step number of user is 5000, falls into
3000<S≤6000 pre-set interval, front 1 hour correction value E for entering sleep in user are effective, and the length of one's sleep below is invalid,
When the motion step number of user is 8000,6000 are fallen into<S≤12000 pre-set interval, enters the first two hour of sleep in user
Effectively, the length of one's sleep below is invalid for correction value E.
Further, determined before correction value E according to activity size, user type parameter can also be obtained, according to user
Type parameter and activity size determine correction value E.Because different types of user is under the size cases of same campaign amount, right
The warm-cold sensitivity of user's sleep is impacted also difference, therefore it is further contemplated that user type parameter.Such as the elderly and youth
In the case of daytime identical activity, the antisecosis that the elderly's evening sleeps is slower than young people, the sleep of the elderly's evening
The temperature of needs is relatively higher than young people, therefore correction value E of the two is different.
If specific above table is correction value E for the elderly, may be referred to for correction value E of young people
Below table is obtained:
Can be drawn by above table, the absolute value of correction value E of young people is higher than the elderly, but young people
The effective time of correction value E is shorter than the elderly.
As correction value E further embodies the warm-cold sensitivity when user that causes of activity size before user's sleep sleeps
The difference received, therefore the user that more can fit when being modified design temperature with reference to correction value C is cold and hot between the perdormitum
Sense change, further improves comfortableness of the user during sleeping.
It should be noted that being based on above-mentioned correction value C, D, E, in the first embodiment the design temperature of air-conditioner is carried out
During amendment, it can be modified with reference to any one or more of correction value C, correction value D and correction value E together.For example, only tie
It is when conjunction correction value C parameter is modified to design temperature, specific as follows:
According to the difference of temperature value Tb and temperature value Ta and correction value C and preset value A's and value, the setting to air-conditioner
Temperature value is modified.
Or, it is when being modified to design temperature only in conjunction with correction value D parameter, specific as follows:
According to the difference of temperature value Tb and temperature value Ta and correction value D and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
Or, it is when being modified to design temperature only in conjunction with correction value E parameter, specific as follows:
According to the difference of temperature value Tb and temperature value Ta and correction value E and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
Or, it is during with correction value C and correction value D the two parameters with reference to being modified to design temperature, specific as follows:
According to the difference of temperature value Tb and temperature value Ta and correction value C and correction value D and preset value A's and value, to sky
The set temperature value of device is adjusted to be modified.
When multiple combinations in by above-mentioned corrected parameter are to set temperature value correction value, than with reference to it is single to setting
The amendment of temperature value is more accurate, and more the warm-cold sensitivity with reference to user between the perdormitum is received.
Further, with reference to Fig. 4, Fig. 4 is the 3rd embodiment of the air-conditioner control method based on wearable device, is based on
Air conditioning control method second embodiment of the invention described above based on wearable device, in the present embodiment, combines amendment for concrete
The step of value D parameter is modified to design temperature includes:
Step S31, according to user, in sleep procedure, body temperature rhythm obtains correction value D;
Step S32, according to the difference of temperature value Tb and temperature value Ta and correction value D and preset value A's and, to air-conditioner
Set temperature value is modified.
Temperature value Tb and user of the user in the Preset Time for entering sleep are detected by wearable device to exist
After the temperature value Ta detected in sleep procedure, A's and air-conditioner is set using the difference of the two and correction value D and preset value
Temperature is that running temperature is modified, and specifically can carry out simple computation amendment by below equation:TS (n)=TS (n-1)+
Tb-Ta+A+D, wherein TS (n) are revised set temperature value, and TS (n-1) is current set temperature value.Due to user's
Skin temperature or neighbouring environment temperature are change in user's sleep procedure, receive very big with the warm-cold sensitivity of user, so
By reference value Tb detected in a Preset Time of sleep such as 1 hour is had just enter in user, using entirely sleeping
Period detected value Ta, by the difference of the two can just reflect user in sleep procedure with just start fall asleep when difference, this is poor
The different warm-cold sensitivity for embodying user is received, and preset value A is with user, and time during sleeping is different and adjust, and is freezed and heated
Pattern is different, and preset value A reflects comfortableness temperature change of the human body during sleeping and requires, and the body temperature during user sleeps
Rhythm and pace of moving things change is different, therefore the change of its body temperature rhythm also embodies the warm-cold sensitivity of user by difference, hence with Tb-Ta+A+D
Corrected to the design temperature of air-conditioner automatically, with fit human body in sleep procedure body temperature rhythm change cause it is cold
Thermal sensation changes, and solves to be not suitable for user as user oneself manually adjusts design temperature due to air-conditioner in sleep procedure with this
The discomfort caused by the warm-cold sensitivity of itself.
The concrete setting function of preset value A arranges function description with the preset value A in second embodiment, specifically no longer goes to live in the household of one's in-laws on getting married
State.
It should be noted that current set temperature value TS (n-1) can be design temperature of the user before sleep is entered
Value, if user does not manually adjust in sleep procedure, this design temperature is changeless.The temperature value in sleep procedure
Difference Tb-Ta of Tb and temperature value Ta and preset value A and preset value be D's and i.e. Tb-Ta+A+D is modified to which so that user
Design temperature change in sleep procedure.It is illustrated in figure 5 before being modified to design temperature in cooling mode
Design temperature change schematic diagram afterwards, solid line is the fixed temperature value that user is set before sleep, and this temperature value is slept in user
Until end of sleeping is always maintained at constant during dormancy, dotted line is difference based on temperature value Tb and temperature value Ta and preset value A
With preset value D and i.e. Tb-Ta+A+D, design temperature is repaiied by above-mentioned formula TS (n)=TS (n-1)+Tb-Ta+A+D
The part that fixed design temperature when relatively original user enters sleep after just changes.For example, user prepares to sleep at night
Feel (i.e. 22:00) open air-conditioner sleep function to set for refrigeration mode by remote control or mobile terminal device setting air-conditioner
26 DEG C of constant temperature degree, and bracelet is placed on bedside by user.Tb is 22:00-22:The hand of user in front half an hour between 30
Environment temperature near the user that ring is detected, 23:Neighbouring ambient temperature value during user's sleep of 00 moment bracelet detection
Ta and Tb are equal, and preset value A is 0, and correction value D is according to first form of step S37 22:00-23:Look in 00 length of one's sleep
Table is 0.3, according to above-mentioned formula Tb-Ta+A+D=0.3, therefore revised design temperature TS=26+0.3=in this time
26.3, therefore design temperature is adjusted to into 26.3 DEG C.24:Neighbouring environment temperature during user's sleep of 00 moment bracelet detection
Angle value Ta is raised, and causes Ta and Tb differences Tb-Ta to become negative value i.e. Tb-Ta=-0.4, and preset value A is 0.5, and correction value D is tabled look-up
Change for 0.4, according to above-mentioned formula Tb-Ta+A+D=-0.4+0.5+0.3=0.4, set temperature by the above formula
Degree TS=26.3+0.4=26.7, therefore design temperature is modified to into 26.7 DEG C.Hereafter 1:The user of 00 moment bracelet detection
Neighbouring ambient temperature value Ta during sleep declines, now Tb and Ta differences Tb-Ta=0.2, and preset value A is 1, and preset value D is looked into
Table is 0.4, according to above-mentioned formula Tb-Ta+A+D=-0.2+1+0.4=1.2, design temperature TS=by the above formula
26.7+1.2=27.9, therefore design temperature is modified to into 27.9 DEG C, setting for other dotted portions can be then obtained by that analogy
Determine temperature corrected value.Can be looked into by the display portion of air-conditioner or mobile terminal device through revised design temperature
See.
In the present embodiment, current set temperature value TS (n-1) can be setting sleep temperature of the user before sleep is entered
Write music line, during user sleeps, this set temperature value was changed with the length of one's sleep of user preset, in sleep procedure
The difference of temperature value Tb and temperature value Ta and preset value A and preset value D's and Tb-Ta+A+D which is modified so that user
Sleep temperature curve change in sleep procedure.As shown in fig. 6, the sleep that solid line is user to be set before sleep
Temperature curve is set such as by remote control or mobile terminal device, and this temperature value is in user's sleep procedure until sleep knot
Beam is according to the sleep of user, middle sleep, exits sleep three phases and change, and dotted line is based on temperature value Tb and temperature
The difference of value Ta and preset value A and preset value D's and Tb-Ta+A+D above-mentioned scenario earthquake is repaiied by above-mentioned formula
The temperature section for just changing afterwards, which is identical with specific reference to the amendment of Tb-Ta+A+D and the situation of Fig. 5, is not repeating.Through
Set temperature value in revised sleep temperature curve can be looked into by the display portion of mobile terminal device or air-conditioner
See, or revised sleep temperature curve can be checked by mobile terminal device.
Further, according to the difference of temperature value Tb and temperature value Ta and correction value D and preset value A's and, to air-conditioner
Set temperature value be modified after, the span of revised set temperature value can also be limited, such as limited revised
Set temperature value is up to 29 DEG C, minimum 20 DEG C, prevents revised design temperature too high or too low.
It should be noted that to interval time of the amendment of design temperature for preset value A interval adjustment time, Huo Zhewei
The time interval that correction value D is obtained according to body temperature rhythm, is such as defined according to the adjustment time of preset value A in above table, every 1
Hour amendment once, or is corrected once according to the interval interval of the acquisition of correction value D in above table for each 1 hour, so
Accomplish synchronously to be modified set temperature value when preset value A is adjusted or correction value D is obtained.
Above-described embodiment is the concrete application case being modified to design temperature with reference to correction value D, is repaiied with reference to others
Positive parameter such as correction value C or correction value E are similar in this when being modified to design temperature, will not be described here.
The present invention also provides a kind of air conditioner controlling device based on wearable device.
With reference to Fig. 7, work(of the Fig. 7 for the air conditioner controlling device first embodiment based on wearable device of apparatus of the present invention
Can module diagram.
In the present embodiment, the air conditioner controlling device based on wearable device includes:
Temperature value Tb acquisition modules 10, obtain the temperature value Tb of user in the Preset Time after entering sleep;
Temperature value Ta detection modules 20, detect the temperature value of sleep stage Each point in time user after the Preset Time
Ta, wherein near user's skin temperature values for detecting for wearable device of the temperature value Tb and temperature value Ta or user
Ambient temperature value;
Correcting module 30, for the difference according to the temperature value Tb and temperature value Ta and preset value A's and to air-conditioner
Set temperature value be modified;
Control module 40, for according to set temperature value control air-conditioner operation after amendment.
User detects the temperature value of user in an incipient Preset Time after the sleep function for opening air-conditioner
Tb, temperature value Tb herein are the detection temperature values that user is initially entered in one Preset Time of sleep, and such as Preset Time can be with
20-100 minutes are set to, after the sleep function that user opens air-conditioner, by wearable within the 20-100 minutes for starting
Equipment detects temperature value.This temperature value can be in this Preset Time, select one of time point to obtain a value,
Can also be that the multiple values obtained in this Preset Time carry out numerical value again and process a value obtaining, such as these multiple values are asked
With the value finally obtaining of averaging.
Wearable device can be bracelet, intelligent watch and the therapeutic medical limbs that can be worn or be worn on user
On equipment, inside its wearable device have temperature sensor.When user wears, the wearable device worn can be passed through
The skin temperature value of detection user, i.e., contacted with skin at detection user's wrist by bracelet using the temperature detecting function of bracelet
Skin temperature.When user does not wear, the ambient temperature value that can be detected near user is placed near user.For example, user
Evening, bracelet was placed on the ambient temperature value that bedside detects user's near its circumference.Referring herein to detection user near environment temperature
Angle value refers to that wearable device is closer from user, is in same environment space with user, such as wearable device and user
It is in together a room and close to user such as scope of the distance users within 1 meter.
By identifying user whether wear wearable device can determine whether out wearable device detection be user skin temperature
Ambient temperature value near angle value or user.So that wearable device is as bracelet as an example, examined by the acceleration transducer of bracelet
Whether the accekeration of survey is consistent with the default characteristic value of bracelet, can determine whether out user in conjunction with whether bracelet detects heart rate value
Whether bracelet is worn;Or whether the scope of the temperature value detected by the temperature sensor of bracelet meets human skin temperature's phase
The characteristic value of pass can also judge whether user wears bracelet.Detect after whether user wear wearable device, if known
Not Wei user do not wear, you can what judgement obtained the detection of now wearable device is the ambient temperature value near user, if known
Wei not wear, sensor of the wearable device only comprising detection user's skin temperature then now can determine wearable setting
Standby detection be user skin temperature value, if wearable device includes the sensor of 2 or more than 2, can be preferential
The sensor temperature values of detection user's skin temperature are obtained, because tightr with customer relationship using user's skin temperature value, is needed
The detection temperature value of this sensor is obtained preferentially.
Accurate for detection temperature Value Data, the value of the temperature value to detecting is provided with a bound scope,
Specially:
When user does not wear wearable device, now what wearable device was detected is the environment temperature near user
Value, given scope is N1≤Tb≤N2, i.e., when detecting temperature value Tb<N1, takes Tb=N1;When the temperature value for detecting
Tb>N2, takes Tb=N2, and in the case of other, Tb is identical with the temperature value for detecting.
When user wears wearable device, what now wearable device was detected is the skin temperature value of user, is given
Scope be N3≤Tb≤N4, i.e., when detecting temperature value Tb<N3, takes Tb=N3, as the temperature value Tb for detecting>N4,
Tb=N4 is taken, Tb is identical with the temperature value for detecting in the case of other.
Because the skin temperature of user is higher than ambient temperature under normal circumstances, the two value ranges are not
With, and user wear wearable device restriction scope it is higher than the scope for not wearing restriction, i.e. N1<N3, N2<N4.For example:
Open under refrigeration mode in air-conditioner, user by wearing during bracelet, detect skin temperature range can be 28 DEG C≤Tb≤
34 DEG C, user does not wear bracelet, and when bracelet is placed near user, the ambient temperature range of the user's near its circumference for detecting can be with
It is 22 DEG C≤Tb≤26 DEG C.
After the temperature value Tb that temperature value Tb acquisition modules obtain in Preset Time of the user after sleep is initially entered,
The temperature value of user is detected as Ta by wearable device in the follow-up time of user's sleep, it is identical with the acquisition principle of Tb,
This temperature value is also user's skin temperature value or the ambient temperature value near user.The detection of Ta temperature values can be in sleep
Continuous real-time detection in stage, now Each point in time is continuous;May also be at interval of the short Preset Time of comparison such as
Detection in 10 minutes once, or at interval of the short Preset Time of comparison as in 10 minutes continuous detection processed again and such as taken
A value is worth to averagely, now Each point in time is discontinuous.
Temperature value Tb and user of the user in the Preset Time for entering sleep are detected by wearable device to exist
After the temperature value Ta detected in sleep procedure, air-conditioner design temperature is run using the two difference and preset value A
Temperature is modified, and specifically can carry out simple computation amendment by below equation:TS (n)=TS (n-1)+Tb-Ta+A, wherein
TS (n) is revised set temperature value, and TS (n-1) is current set temperature value.Due to the skin temperature or attached of user
Near environment temperature is change in user's sleep procedure, with the warm-cold sensitivity of user by very big, so by just entering in user
Enter reference value Tb detected in a Preset Time such as 1 hour of sleep, using the detected value Ta during whole sleep, lead to
Cross the difference of the two can just reflect user in sleep procedure with just starting difference when falling asleep, this difference embodies the cold of user
Thermal sensation is received, and preset value A is with user, and time during sleeping is different and adjust, and the size of its value was being slept according to human body
Comfort temperature change in journey is required, is freezed different with heating mode, as the preset value A for changing embodies sleep quality process
In temperature change, the design temperature of air-conditioner is corrected automatically hence with Tb-Ta+A, with fit human body sleep
During Temperature changing cause warm-cold sensitivity change, with this solve due to air-conditioner in sleep procedure due to user oneself hand
Dynamic adjustment design temperature is not suitable for the discomfort caused by the warm-cold sensitivity of user itself.
Specifically in cooling mode, the Temperature changing situation according to human body in sleep procedure, preset value A are positive number
Value, different and different with user's length of one's sleep, concrete preset value A can be spaced a Preset Time and set temperature value is entered
Row amendment, such as corrects once every half an hour or 1 hour, and such as preset value A passed through below table to setting temperature every 1 hour
Degree is modified:
In a heating mode, the Temperature changing situation according to human body in sleep procedure, preset value A are negative value, with
User's length of one's sleep it is different and different, a Preset Time can be spaced with refrigeration mode preset value A set temperature value is entered
Row amendment, such as corrects once every half an hour or 1 hour, and such as preset value A passed through below table to setting temperature every 1 hour
Degree is modified:
During being slept to user in a heating mode with reference to formula TS (n)=TS (n-1)+Tb-Ta+A by above table
Set temperature value is corrected.
Understand with reference to situations of change of the preset value A during sleeping under above-mentioned refrigeration and heating mode, the size of preset value A
Change with the length of one's sleep of user, specifically the sleep of user can be divided into continuous three phases, the first stage is pre-
If the order of magnitude of value A is incremented by over time, the order of magnitude of second stage preset value A keeps constant, the 3rd
The stage order of magnitude of preset value A successively decreases over time, and such as under refrigeration mode, preset value A sleeps into fashionable relative
Between 0-4 hours its absolute values be to increase, in 4-7 hours, its absolute value keeps constant, its absolute value is protected after 7 hours
Hold and successively decrease.
It should be noted that current set temperature value TS (n-1) can be design temperature of the user before sleep is entered
Value, if user does not manually adjust in sleep procedure, this design temperature is changeless.The temperature value in sleep procedure
Difference Tb-Ta of Tb and temperature value Ta and preset value be A's and i.e. Tb-Ta+A is modified to which so that the design temperature of user
Change in sleep procedure.It is illustrated in figure 2 the design temperature in front and back being modified to design temperature in cooling mode
Change schematic diagram, the fixed temperature value that solid line is set before sleep for user, this temperature value are straight in user's sleep procedure
Be always maintained to sleep end it is constant, dotted line be difference based on temperature value Tb and temperature value Ta with preset value A's and i.e. Tb-Ta
+ A relatively original user's entrance sleeps after being modified to design temperature by above-mentioned formula TS (n)=TS (n-1)+Tb-Ta+A
When the part that changes of fixed design temperature.For example, user prepares sleep (i.e. 22 at night:00) open air-conditioner sleep
Function passes through remote control or mobile terminal device arranges 26 DEG C of air-conditioner design temperature, and bracelet is placed on bedside by user.
Tb is 22:00-22:Environment temperature near the user that the bracelet of user is detected in front half an hour between 30,23:00
Neighbouring ambient temperature value Ta and Tb during user's sleep of moment bracelet detection is equal, and preset value A is 0, according to above-mentioned formula,
Tb-Ta+A is zero, therefore without being modified to design temperature TS in this time, TS keeps constant.24:00 moment bracelet
Neighbouring ambient temperature value Ta during the user of detection sleeps is raised, and causes Ta and Tb differences Tb-Ta to become negative value i.e. Tb-Ta
=-0.4, preset value A are 0.5, by the above formula design temperature TS=26-0.4+0.5=26.1, therefore will setting temperature
Degree is modified to 26.1 DEG C.Hereafter 1:Neighbouring ambient temperature value Ta during the user of 00 moment bracelet detection sleeps declines, this
When Tb and Ta differences Tb-Ta=0.2, preset value A is 0.5, by the above formula design temperature TS=26.1+0.2+0.5
=26.8, therefore design temperature is modified to into 26.8 DEG C, the design temperature that can then obtain other dotted portions by that analogy is repaiied
On the occasion of.Can be checked by the display portion of air-conditioner or mobile terminal device through revised design temperature.
In another embodiment, current set temperature value TS (n-1) can be setting sleep of the user before sleep is entered
Temperature curve, during user sleeps, this set temperature value was changed with the length of one's sleep of user preset, through sleep procedure
The difference of middle temperature value Tb and temperature value Ta and preset value A's and Tb-Ta+A which is modified so that the sleep temperature of user
Curve changes in sleep procedure.As shown in figure 3, the sleep temperature curve that solid line is user to be set before sleep is such as
Set by remote control or mobile terminal device, this temperature value in user's sleep procedure until sleep end be according to
The sleep at family, middle sleep, exit sleep three phases and change, dotted line is the difference based on temperature value Tb and temperature value Ta
With preset value A's and the temperature portion that changes after Tb-Ta+A is modified to above-mentioned scenario earthquake by above-mentioned formula
Point, which is identical with specific reference to the amendment of Tb-Ta+A and the situation of Fig. 2, is not repeating.In revised sleep temperature curve
Set temperature value can be checked by the display portion of mobile terminal device or air-conditioner, or revised sleep temperature
Curve can be checked by mobile terminal device.
It should be noted that to interval time of the amendment of design temperature for preset value A interval adjustment time, such as basis
In above table, the adjustment time of preset value A is defined, and every adjustment in 1 hour once, so accomplishes when preset value A is modified
It is synchronous that set temperature value is modified.Control module 40 is controlled to air-conditioner according to above-mentioned revised set temperature value
System.
After correcting module obtains revised set temperature value, for transducer air conditioning, now need with reference to logical
Cross the situation of change and indoor environment temperature and revised set temperature value of the indoor environment temperature T1 values of air-conditioner detection
Situation of change obtain compressor operating frequency needs variable quantity, and compressor next step is calculated according to this variable quantity
The frequency values of operation, the relatively conventional simple situation of change according to design temperature with indoor environment temperature of this scheme are needed to control
The running frequency of compressor can more be fitted the situation of change of indoor environment temperature, control the room obtained after compressor operating with this
Interior variation of ambient temperature more quickly follows revised design temperature change, so as to further improve relaxing when user sleeps
Adaptive is required.
Specific control rule is as follows:
Air-conditioner real-time detection ambient temperature value, according to current indoor ambient temperature value and revised set temperature value
Difference obtains indoor environment temperature value and revised set temperature value situation of change, and according to previous indoor environment temperature value
The situation of change of indoor environment temperature is obtained with the difference of front indoor environment temperature value, is two differences according to the two situations of change
The size of value obtains the variable quantity of compressor frequency, and its acquisition process can be calculated by formula or using the method tabled look-up
Obtain, a part of frequency variation Δ F (Hz) for for example obtaining compressor in the method tabled look-up in cooling mode is as follows:
In above table, T1 (n)-TS (n) represents the difference of current indoor temperature value T1 and revised set temperature value
(unit DEG C), T1 (n-1)-T1 (n) represent the difference (unit of previous indoor environment temperature value and current indoor ambient temperature value
DEG C), different compressor frequency variation deltas F are corresponded to by the difference of the two difference, relatively compressor frequency control in the past
According only to indoor environment temperature and the situation of change of set temperature value, the situation of change in front and back that increased indoor environment temperature comes comprehensive
Conjunction obtains the frequency variation of compressor, more accurate with the compressor frequency regulated quantity that this obtains.
Compressor next step is obtained according to compressor frequency variation delta F needs the frequency F value of operation, can be by simple
Calculating such as F (n)=F (n-1)+Δ F obtain, wherein F (n) is next step compressor operating frequency value, and F (n-1) is current pressure
Contracting machine running frequency value, or can also be calculated with reference to situation of change before and after compressor operating frequency, such as F (n)=
Δ F × K+min (F (n-2), F (n-1)), wherein F (n-2) are the running frequency value of front first compression machine, min (F (n-2), F
(n-1) little one taken in the running frequency and current compressor running frequency value of front first compression machine is represented, K is Δ F's
Correction factor, needs to determine by previous experiments, and this kind of scheme is calculated before and after the running frequency of compressor considers which and changes feelings
Condition, it is more accurate with the compressor frequency that this obtains.
In the present embodiment, for application scenarios specifically based on the air conditioner controlling device of wearable device, which is each
Setting of the individual module in application apparatus is as follows:
The annexation schematic diagram of wearable device as shown in Figure 8 and air-conditioner, its application apparatus include wearable setting
Standby 4, mobile terminal device 3, router 2, air-conditioner 1 are constituted, and the wherein such as bracelet of wearable device 4 passes through bluetooth and mobile terminal
The such as mobile phone of equipment 3 sets up communication connection, sets up communication with air-conditioner 1 by WIFI using router 2 in the middle of mobile terminal device 3
Connection, this annexation are the annexation figure that the conventional equipment of current family sets up communication based on bracelet and air-conditioner.
Fig. 9 directly sets up communication with air-conditioner 1 by WIFI from mobile terminal device unlike Fig. 83 and is connected, it is not necessary to
Router 2.Wearable device 4 detects user's skin surface temperature value or the ambient temperature value near user, therefore temperature value
Ta detection modules and temperature value Tb detection modules are all arranged in wearable device 4.Wearable device 4 will detection user's body epidermis
Ambient temperature value near skin temperature value or user is sent to mobile terminal device 3, is provided with air-conditioning on mobile terminal device 3
The control APP softwares of device 1, user can control air-conditioner 1 by APP softwares, when user controls air-conditioner 1 by APP softwares
After opening sleep function, its APP software is according to the environment temperature near the user's skin surface temperature value or user for receiving
Value is modified to set temperature value, and revised set temperature value is sent to air-conditioner 1, after air-conditioner 1 is according to amendment
Set temperature value control the operation of compressor load, therefore correcting module is arranged in mobile terminal device 3, and control module sets
It is placed in air-conditioner 1.
In the present embodiment, by the environment temperature near user's skin temperature value or user is detected based on wearable device
It is worth, and the temperature value based on above-mentioned detection obtains the temperature value Tb of user and follow-up sleep in the Preset Time after entering sleep
The temperature value Ta of stage Each point in time user, and the difference according to temperature value Tb and temperature value Ta and preset value A's and right
The set temperature value of air-conditioner is modified, and is finally based on revised set temperature value control air-conditioner operation, due to temperature
The difference of value Tb and temperature value Ta and preset value A's and embody warm-cold sensitivity of the user during sleeping and receive, therefore, it is possible to basis
User itself warm-cold sensitivity receives the temperature value for carrying out adjust automatically user setting, improves the comfortableness in user's sleep procedure.
Further, based on apparatus of the present invention the air conditioner controlling device based on wearable device second embodiment,
Based on the air conditioner controlling device first embodiment based on wearable device of the invention described above device, in the present embodiment, repair
Holotype root tuber according to temperature value Tb and temperature value Ta difference and preset value A's and value, the set temperature value of air-conditioner is repaiied
It is just outer, can be combined with other parameters and design temperature is modified, specific parameter includes correction value C, correction value D and repaiies
On the occasion of E.Individually below the acquisition modes of the correction value are described one by one.
(1) correction value C
In the present embodiment, correction value C can be determined as follows:
The sleep state information the sleep state information according to the user and temperature value Ta for obtaining user determines amendment
Value C.
The sleep state information the sleep state information according to the user and temperature value Ta for obtaining user determines amendment
Value C.
The sleep state information of user includes quality state information of the user in sleep procedure, such as firm hypnagogic state, shallow
State, deep sleep, awake state are slept, its sleep state information can be detected by wearable device, such as worn by user
Bracelet in acceleration transducer detect and with reference to bracelet process chip calculate or judge obtain, or further combined with
The heart rate data of the photo-electric heart rate sensor measurement user in bracelet judges to obtain.By the temperature value obtained in above-mentioned steps
Ta, when determining correction value C with reference to sleep state information, can divide several interval, roots according to the scope of temperature value Ta in advance
Which is interval to judge ownership according to the temperature value Ta for detecting, and is then determined according to affiliated pre-set interval and sleep state information and is repaiied
On the occasion of C.Below table process is specifically may be referred to for example:
Ta(℃) | Ta<21 | 21≤Ta < 22.5 | 22.5≤Ta≤26 | 26 < Ta < 27.5 | Ta>27.5 |
It is shallow to sleep C | 1 | 0.5 | 0 | 0 | -0.4 |
Sound sleep C | 0.5 | 0.25 | 0 | -0.25 | -0.5 |
Wake up | 0.3 | 0.2 | 0 | -0.3 | -0.7 |
In above table by the scope of temperature value Ta be divided into 5 it is interval, further according to user sleep in it is shallow sleep, sound sleep or
There is corresponding correction value C in each interval of status information correspondence wakeeed up, and such as currently detected temperature value Ta is 26 DEG C, current to use
State is slept in shallow in family, it is determined that correction value C for obtaining is 0, can be drawn by above table, when user sleeps state in shallow
When, than in the big of deep sleep, certainly as the interval division of temperature value Ta is fewer, there is the two phase in its correction value C
Deng situation, if interval division is more, unequal interval is more, such as the interval of more than 10, then shallow amendment when sleeping
The value C chance bigger than during sound sleep is more.
As warm-cold sensitivity of the user in different sleep states is by difference, therefore above-mentioned basis monitors the temperature of user
Value Ta combines correction value C that the sleep state of user is obtained, and embodies difference of the user in the warm-cold sensitivity of sleep different phase, because
Warm-cold sensitivity of the user between the perdormitum of more can fitting when this is modified design temperature with reference to correction value C changes, and enters one
Step improves comfortableness of the user during sleeping.
When changing due to the sleep state of user, the change of the warm-cold sensitivity of user is influenced whether, if sleep state is constant
When do not interfere with the change of warm-cold sensitivity state, therefore only when sleep state changes correction value C just effectively, if sleep
It is invalid that state does not change then correction value C, such as detects user when the state just fallen asleep is changed into shallow sleeping, now detection temperature value Ta
For 26 DEG C, it is 0 to be tabled look-up by above table and obtain now correction value C, and now just effectively, during falling asleep, correction value C is correction value C
Invalid.
(2) correction value D
In the present embodiment, correction value D can be obtained in the following way:
According to user, in sleep procedure, body temperature rhythm obtains correction value D.
The body temperature rhythm of human body reflects human body Temperature changing rule in 24 hours a day, and its Changing Pattern embodies people
The active state of body, therefore the sleep state of human body also has relation with Temperature changing, such as when just falling asleep, body temperature is than shape of sleeping soundly
State is high, body temperature when waking up also than sleeping soundly when fever, cut one fixed rule of presence i.e. body temperature rhythm, it is therefore desirable to root
The set temperature value of the air-conditioner in sleep procedure is modified according to the body temperature rhythm change during sleep quality, that is, is needed
Obtain related correction value D of body temperature rhythm in the sleep procedure of user.Specific acquisition modes can be according to human body in sleep procedure
Middle body temperature rhythm Changing Pattern calculating or table look-up such as by lookup table mode according to the concrete time that user sleeps with hour is
Interval, obtains correction value D according to the body temperature rhythm and pace of moving things as follows:
Sleep real-time time | Correction value D |
22:00-23:00 | 0.3 |
23:00-24:00 | 0.4 |
0:00-1:00 | 0.4 |
1:00-2:00 | 0.5 |
2:00-3:00 | 0.5 |
3:00-4:00 | 0.5 |
4:00-5:00 | 0.5 |
5:00-6:00 | 0.5 |
6:00-7:00 | 0.2 |
7:00-8:00 | -0.1 |
In above table, according to sleep quality from fall asleep to wakeing up during human body body temperature rhythm change, due to human body
Body temperature is with the intensification body temperature step-down of Depth of sleep, therefore the comfort temperature that human body needs is risen with the intensification of Depth of sleep
High, thus the value of correction value D is raised with the intensification of Depth of sleep.Specific user as shown above is from 22:00
Start to fall asleep, to 1:Deep sleep is reached during 00, now the body temperature of human body gradually step-down, thus correction value D gradually rises, from
Morning 6:00 to 8:00 body temperature that gradually stage of wakeing up is used for gradually rises, thus correction value D is gradually lowered.
Further, when obtaining correction value D of body temperature rhythm correlation in the sleep procedure of user, first obtain user type ginseng
Number, according to user type parameter acquiring correction value D.Because the body temperature rhythm of different types of user also has little difference, such as
Virgin body temperature is higher than teenager, and teen-age body temperature is higher than the elderly, therefore the body temperature of these different types of user crowds
The rhythm and pace of moving things is different when changing, and needs do according to different user types and process respectively, such as with two kinds of users of Children and teenager
As a example by type, correction value D of the body temperature rhythm correlation in its sleep procedure is as follows:
By upper table it is known that children are from falling asleep to sound sleep and its correction value D is lower than teen-age during wakeing up.
Body temperature rhythm change during being slept due to user is different, therefore the change of its body temperature rhythm also embodies user's
Warm-cold sensitivity is received difference, therefore the correction value D parameter of the body temperature rhythm change by embodiment user during sleeping to combine to sky
When adjusting the design temperature of device to be modified, the warm-cold sensitivity that body temperature rhythm change of the human body in sleep procedure of can fitting causes becomes
Change, further improve comfortableness of the user during sleeping.
(3) correction value E
In the present embodiment, correction value E can be determined as follows:
Obtain the activity that wearable device detection user is entered before sleep;
Correction value E is determined according to activity size.
Also the warm-cold sensitivity state having been had influence on due to the size of the activity before user's sleep in user's sleep procedure, is such as used
Family Comparison of Gardening Activities on daytime is more, and volume of perspiration is big, then the stage of falling asleep needs to compare relatively low room temperature so just during sleep evening
The sleep of user can be promoted, it is therefore desirable to determine a correct value parameter with the setting temperature to air-conditioner according to the activity of user
Degree is modified, and specifically determines that correction value E simply can be detected according to wearable device according to the size of activity and sleeps
Motion step number before dormancy is determining how many motion step numbers of user is divided into default several intervals such as, to different preset areas
Between different correction values E are determined during user sleeps, as shown in following table:
It is in above table, how many according to the motion step number that the user that wearable device is detected is entered before sleep, it is divided into not
Same several pre-set intervals, then determine the correction value E size during user sleeps according to different pre-set intervals.From the above
Form can draw, when the activity of user is bigger, the effective time of its correction value E is longer, when the activity it is less, then
The effective time being modified to design temperature by correction value E is shorter, such as when the motion step number of user is 5000, falls into
3000<S≤6000 pre-set interval, front 1 hour correction value E for entering sleep in user are effective, and the length of one's sleep below is invalid,
When the motion step number of user is 8000,6000 are fallen into<S≤12000 pre-set interval, enters the first two hour of sleep in user
Effectively, the length of one's sleep below is invalid for correction value E.
Further, determined before correction value E according to activity size, user type parameter can also be obtained, according to user
Type parameter and activity size determine correction value E.Because different types of user is under the size cases of same campaign amount, right
The warm-cold sensitivity of user's sleep is impacted also difference, therefore it is further contemplated that user type parameter.Such as the elderly and youth
In the case of daytime identical activity, the antisecosis that the elderly's evening sleeps is slower than young people, the sleep of the elderly's evening
The temperature of needs is relatively higher than young people, therefore correction value E of the two is different.
If specific above table is correction value E for the elderly, may be referred to for correction value E of young people
Below table is obtained:
Can be drawn by above table, the absolute value of correction value E of young people is higher than the elderly, but young people
The effective time of correction value E is shorter than the elderly.
As correction value E further embodies the warm-cold sensitivity when user that causes of activity size before user's sleep sleeps
The difference received, therefore the user that more can fit when being modified design temperature with reference to correction value C is cold and hot between the perdormitum
Sense change, further improves comfortableness of the user during sleeping.
It should be noted that being based on above-mentioned correction value C, D, E, in the first embodiment the design temperature of air-conditioner is carried out
During amendment, it can be modified with reference to any one or more of correction value C, correction value D and correction value E together.For example, only tie
When conjunction correction value C parameter is modified to design temperature, correcting module is additionally operable to:
According to the difference of temperature value Tb and temperature value Ta and correction value C and preset value A's and value, the setting to air-conditioner
Temperature value is modified.
Or, when being individually modified to design temperature with reference to correction value D acquisition module, correcting module is additionally operable to:
According to the difference of temperature value Tb and temperature value Ta and correction value D and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
Or, when being individually modified to design temperature with reference to correction value E determining module, correcting module is additionally operable to:
According to the difference of temperature value Tb and temperature value Ta and correction value E and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
Or, design temperature is modified constantly with reference to correction value C determining module and correction value D acquisition module, amendment
Module is additionally operable to:
According to the difference of temperature value Tb and temperature value Ta and correction value C and correction value D and preset value A's and value, to sky
The set temperature value of device is adjusted to be modified.
When multiple combinations in by above-mentioned corrected parameter are to set temperature value correction value, than with reference to it is single to setting
The amendment of temperature value is more accurate, and more the warm-cold sensitivity with reference to user between the perdormitum is received.
Further, with reference to Figure 10, Figure 10 is the 3rd embodiment of the air conditioner controlling device based on wearable device, base
In air conditioner controlling device second embodiment of the invention described above based on wearable device, in the present embodiment, described device is also wrapped
Include:
Correction value D acquisition module 50, for body temperature rhythm obtains correction value D in sleep procedure according to user;
The correcting module 50 is additionally operable to, according to the difference of the temperature value Tb and temperature value Ta and correction value D and default
The sum of value A, is modified to the set temperature value of air-conditioner.
Temperature value Tb and user of the user in the Preset Time for entering sleep are detected by wearable device to exist
After the temperature value Ta detected in sleep procedure, A's and air-conditioner is set using the difference of the two and correction value D and preset value
Temperature is that running temperature is modified, and specifically can carry out simple computation amendment by below equation:TS (n)=TS (n-1)+
Tb-Ta+A+D, wherein TS (n) are revised set temperature value, and TS (n-1) is current set temperature value.Due to user's
Skin temperature or neighbouring environment temperature are change in user's sleep procedure, receive very big with the warm-cold sensitivity of user, so
By reference value Tb detected in a Preset Time of sleep such as 1 hour is had just enter in user, using entirely sleeping
Period detected value Ta, by the difference of the two can just reflect user in sleep procedure with just start fall asleep when difference, this is poor
The different warm-cold sensitivity for embodying user is received, and preset value A is with user, and time during sleeping is different and adjust, and is freezed and heated
Pattern is different, and preset value A reflects comfortableness temperature change of the human body during sleeping and requires, and the body temperature during user sleeps
Rhythm and pace of moving things change is different, therefore the change of its body temperature rhythm also embodies the warm-cold sensitivity of user by difference, hence with Tb-Ta+A+D
Corrected to the design temperature of air-conditioner automatically, with fit human body in sleep procedure body temperature rhythm change cause it is cold
Thermal sensation changes, and solves to be not suitable for user as user oneself manually adjusts design temperature due to air-conditioner in sleep procedure with this
The discomfort caused by the warm-cold sensitivity of itself.
The concrete setting function of preset value A arranges function description with the preset value A in second embodiment, specifically no longer goes to live in the household of one's in-laws on getting married
State.
It should be noted that current set temperature value TS (n-1) can be design temperature of the user before sleep is entered
Value, if user does not manually adjust in sleep procedure, this design temperature is changeless.The temperature value in sleep procedure
Difference Tb-Ta of Tb and temperature value Ta and preset value A and preset value be D's and i.e. Tb-Ta+A+D is modified to which so that user
Design temperature change in sleep procedure.It is illustrated in figure 5 before being modified to design temperature in cooling mode
Design temperature change schematic diagram afterwards, solid line is the fixed temperature value that user is set before sleep, and this temperature value is slept in user
Until end of sleeping is always maintained at constant during dormancy, dotted line is difference based on temperature value Tb and temperature value Ta and preset value A
Design temperature is repaiied by above-mentioned formula TS (n)=TS (n-1)+Tb-Ta+A+D with preset value D's and i.e. Tb-Ta+A+D
The part that fixed design temperature when relatively original user enters sleep after just changes.For example, user prepares to sleep at night
Feel (i.e. 22:00) open air-conditioner sleep function to set for refrigeration mode by remote control or mobile terminal device setting air-conditioner
26 DEG C of constant temperature degree, and bracelet is placed on bedside by user.Tb is 22:00-22:The hand of user in front half an hour between 30
Environment temperature near the user that ring is detected, 23:Neighbouring ambient temperature value during user's sleep of 00 moment bracelet detection
Ta and Tb are equal, and preset value A is 0, and correction value D is according to first form of step S37 22:00-23:Look in 00 length of one's sleep
Table is 0.3, according to above-mentioned formula Tb-Ta+A+D=0.3, therefore revised design temperature TS=26+0.3=in this time
26.3, therefore design temperature is adjusted to into 26.3 DEG C.24:Neighbouring environment temperature during user's sleep of 00 moment bracelet detection
Angle value Ta is raised, and causes Ta and Tb differences Tb-Ta to become negative value i.e. Tb-Ta=-0.4, and preset value A is 0.5, and correction value D is tabled look-up
Change for 0.4, according to above-mentioned formula Tb-Ta+A+D=-0.4+0.5+0.3=0.4, set temperature by the above formula
Degree TS=26.3+0.4=26.7, therefore design temperature is modified to into 26.7 DEG C.Hereafter 1:The user of 00 moment bracelet detection
Neighbouring ambient temperature value Ta during sleep declines, now Tb and Ta differences Tb-Ta=0.2, and preset value A is 1, and preset value D is looked into
Table is 0.4, according to above-mentioned formula Tb-Ta+A+D=-0.2+1+0.4=1.2, design temperature TS=by the above formula
26.7+1.2=27.9, therefore design temperature is modified to into 27.9 DEG C, setting for other dotted portions can be then obtained by that analogy
Determine temperature corrected value.Can be looked into by the display portion of air-conditioner or mobile terminal device through revised design temperature
See.
In the present embodiment, current set temperature value TS (n-1) can be setting sleep temperature of the user before sleep is entered
Write music line, during user sleeps, this set temperature value was changed with the length of one's sleep of user preset, in sleep procedure
The difference of temperature value Tb and temperature value Ta and preset value A and preset value D's and Tb-Ta+A+D which is modified so that user
Sleep temperature curve change in sleep procedure.As shown in fig. 6, the sleep that solid line is user to be set before sleep
Temperature curve is set such as by remote control or mobile terminal device, and this temperature value is in user's sleep procedure until sleep knot
Beam is according to the sleep of user, middle sleep, exits sleep three phases and change, and dotted line is based on temperature value Tb and temperature
The difference of value Ta and preset value A and preset value D's and Tb-Ta+A+D above-mentioned scenario earthquake is repaiied by above-mentioned formula
The temperature section for just changing afterwards, which is identical with specific reference to the amendment of Tb-Ta+A+D and the situation of Fig. 5, is not repeating.Through
Set temperature value in revised sleep temperature curve can be looked into by the display portion of mobile terminal device or air-conditioner
See, or revised sleep temperature curve can be checked by mobile terminal device.
Further, according to the difference of temperature value Tb and temperature value Ta and correction value D and preset value A's and, to air-conditioner
Set temperature value be modified after, the span of revised set temperature value can also be limited, such as limited revised
Set temperature value is up to 29 DEG C, minimum 20 DEG C, prevents revised design temperature too high or too low.
It should be noted that to interval time of the amendment of design temperature for preset value A interval adjustment time, Huo Zhewei
The time interval that correction value D is obtained according to body temperature rhythm, is such as defined according to the adjustment time of preset value A in above table, every 1
Hour amendment once, or is corrected once according to the interval interval of the acquisition of correction value D in above table for each 1 hour, so
Accomplish synchronously to be modified set temperature value when preset value A is adjusted or correction value D is obtained.
Above-described embodiment is the concrete application case being modified to design temperature with reference to correction value D, is repaiied with reference to others
Positive parameter such as correction value C or correction value E are similar in this when being modified to design temperature, will not be described here.
The present invention also provides a kind of air-conditioner.
The air-conditioner includes indoor set and off-premises station, indoor set include blower fan, indoor electric-controlled plate, indoor heat exchanger these
Building block, off-premises station include blower fan, compressor, outdoor electric-controlled plate, outdoor heat exchanger these building blocks, wherein
On indoor electric-controlled plate in addition to including the control device of conventional electric control function for realizing air conditioner room unit, also it is based on including above-mentioned
The air conditioner controlling device of wearable device, or the above-mentioned air conditioner controlling device based on wearable device is independently disposed to sky
In adjusting an electric-controlled plate of device.Air-conditioner control of the function of described air conditioner controlling device with the present invention based on wearable device
The function of all modules of device embodiment processed, is not repeating.
The present embodiment refers to the annexation schematic diagram of the wearable device shown in Figure 11 and air-conditioner, its application apparatus
Including wearable device 4 and air-conditioner 1, the such as bracelet of wearable device 4 is set up communication by bluetooth and air-conditioner 1 and is connected, and can wear
Wear the detection user's skin surface temperature value of equipment 4 or the ambient temperature value near user and issue air-conditioner 1, in air-conditioner 1
Each module of above-mentioned control device works according to above-mentioned functions, and each module of the air-conditioner in this enforcement can also be for figure certainly
The annexation of wearable device in 8 or Fig. 9 and air-conditioner, the detection user's skin surface temperature value of wearable device 4 or
Ambient temperature value near user first issues mobile terminal device 3, and then mobile terminal device 3 relays to air-conditioner 1, finally
Air-conditioner 1 is modified to design temperature according to the temperature value for receiving and controls the compressor load operation of air-conditioner 1.
In the present embodiment, the air-conditioner is by being detected near user's skin temperature value or user based on wearable device
Ambient temperature value, and based on above-mentioned detection temperature value obtain enter sleep after Preset Time in user temperature value Tb with
And the temperature value Ta of follow-up sleep stage Each point in time user, and the difference according to temperature value Tb and temperature value Ta with it is default
Value A and the set temperature value of air-conditioner is modified, or further combined with correction value C, correction value D and correction value E pair
The set temperature value of air-conditioner is modified, and is finally based on revised set temperature value control air-conditioner operation, due to temperature
The difference and preset value A, correction value C, correction value D and correction value E of value Tb and temperature value Ta embodies user in sleep period
Between warm-cold sensitivity receive, therefore, it is possible to according to user itself warm-cold sensitivity receive come adjust automatically user setting temperature value, improve use
Comfortableness in the sleep procedure of family.
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 specification 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 (19)
1. a kind of air-conditioner control method based on wearable device, it is characterised in that the air-conditioning based on wearable device
Device control method is comprised the following steps:
Obtain the temperature value Tb of the user that wearable device is detected in the Preset Time after entering sleep;
The temperature value Ta of sleep stage Each point in time user after the Preset Time is detected, wherein the temperature value Tb and temperature
Ambient temperature value near user's skin temperature value that value Ta is detected for wearable device or user;
According to the difference of the temperature value Tb and temperature value Ta and preset value A's and, the set temperature value of air-conditioner is repaiied
Just, wherein when air-conditioner runs refrigeration mode, the preset value A is positive;It is when air-conditioner runs heating mode, described
Preset value A is negative value;
According to set temperature value control air-conditioner operation after amendment.
2. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that
During ambient temperature value near the user that the temperature value Tb is detected for wearable device, the temperature value Tb's takes
Value scope is N1≤Tb≤N2, wherein, if the temperature value Tb for detecting<N1, takes Tb=N1, if the temperature for detecting
Value Tb>N2, takes Tb=N2;
When user's skin temperature value that the temperature value Tb is detected for wearable device, the second amendment temperature values
For N3≤Tb≤N4, wherein, if the temperature value Tb for detecting<N3, takes Tb=N3, if the temperature value Tb for detecting>
N4, takes Tb=N4, wherein N1<N3, N2<N4.
3. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that
After the Preset Time, sleep stage includes continuous first stage, second stage and phase III, wherein, described first
In stage, the absolute value of the preset value A was incremented by with the time;In the second stage, the absolute value of the preset value A keeps not
Become;In the phase III, the absolute value of the preset value A successively decreased with the time.
4. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that
Methods described also includes:
Obtain the sleep state information of user and the sleep state information according to the user and temperature value Ta determine correction value C;
According to the difference of the temperature value Tb and temperature value Ta and correction value C and preset value A's and value, the setting to air-conditioner
Temperature value is modified.
5. the air-conditioner control method based on wearable device as claimed in claim 4, it is characterised in that
The sleep state information the sleep state information according to user and temperature value Ta for obtaining user determines that correction value C is walked
Suddenly specifically include:
The sleep state information for obtaining user be sound sleep or it is shallow sleep state, and judge the preset areas belonging to the temperature value Ta
Between, correction value C is determined according to affiliated pre-set interval and sound sleep or shallow status information of sleeping.
6. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that
Methods described also includes:
According to user, in sleep procedure, body temperature rhythm obtains correction value D;
According to the difference of the temperature value Tb and temperature value Ta and correction value D and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
7. the air-conditioner control method based on wearable device as claimed in claim 6, it is characterised in that the acquisition user
Sleep procedure in the related correction value D step of body temperature rhythm also include:
The type parameter of user is obtained, with reference to the type parameter and user body temperature rhythm in sleep procedure of the user, is obtained
Take correction value D.
8. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that
Methods described also includes:
Obtain the activity that wearable device detection user is entered before sleep;
Correction value E is determined according to the activity size;
According to the difference of the temperature value Tb and temperature value Ta and correction value E and preset value A's and value, the setting temperature to air-conditioner
Angle value is modified.
9. the air-conditioner control method based on wearable device as claimed in claim 8, it is characterised in that according to the activity
Also include before the step of amount size determines correction value E:
User type parameter is obtained, correction value E is determined according to the user type parameter and activity size.
10. the air-conditioner control method based on wearable device as claimed in claim 1, it is characterised in that the basis is repaiied
Air-conditioner set temperature value control air-conditioner operation after just is specifically included:
According to the difference of current indoor ambient temperature value and the revised set temperature value, and previous indoor environment temperature
Angle value obtains cooler compressor running frequency variable quantity with the difference of current indoor ambient temperature value, is transported according to the compressor
Line frequency variable quantity obtains compressor operating frequency value, and controls compressor operating according to the compressor operating frequency.
11. air-conditioner control methods based on wearable device as claimed in claim 10, it is characterised in that described according to pressure
Contracting machine running frequency variable quantity obtains compressor operating frequency value also to be included:
Minimum of a value before obtaining in first compression machine running frequency and current compressor running frequency, according to the minimum of a value and pressure
Contracting machine running frequency variable quantity obtains compressor operating frequency value.
A kind of 12. air conditioner controlling devices based on wearable device, it is characterised in that the air-conditioning based on wearable device
Device control device includes:
Temperature value Tb acquisition modules, obtain the temperature value of the user that wearable device is detected in the Preset Time after entering sleep
Tb;
Temperature value Ta detection modules, detect the temperature value Ta of sleep stage Each point in time user after the Preset Time, wherein
Environment temperature near user's skin temperature value that the temperature value Tb and temperature value Ta is detected for wearable device or user
Angle value;
Correcting module, for the difference according to the temperature value Tb and temperature value Ta and preset value A's and, the setting to air-conditioner
Temperature value is modified, wherein when air-conditioner runs refrigeration mode, the preset value A is positive;When air-conditioner operation is made
During heat pattern, the preset value A is negative value;
Control module, for according to set temperature value control air-conditioner operation after amendment.
13. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that the correcting module
Also include:
After the Preset Time, sleep stage includes continuous first stage, second stage and phase III, wherein, described first
In stage, the absolute value of the preset value A was incremented by with the time;In the second stage, the absolute value of the preset value A keeps not
Become;In the phase III, the absolute value of the preset value A successively decreased with the time.
14. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that described based on can wear
The air conditioner controlling device for wearing equipment also includes sleep state acquisition module and correction value C determining module,
The sleep state acquisition module, for obtaining the sleep state information of user;
The correction value C determining module, for determining correction value C according to the sleep state information of the user and temperature value Ta;
The correcting module is additionally operable to, according to the difference of the temperature value Tb and temperature value Ta and correction value C and preset value A
It is modified with the set temperature value to air-conditioner.
15. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that described based on can wear
The air conditioner controlling device for wearing equipment also includes correction value D acquisition module,
The correction value D acquisition module, for body temperature rhythm obtains correction value D in sleep procedure according to user;
The correcting module is additionally operable to, according to the difference of the temperature value Tb and temperature value Ta and correction value D and preset value A
With the set temperature value of air-conditioner is modified.
16. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that described based on can wear
The air conditioner controlling device for wearing equipment also includes activity acquisition module and correction value E determining module,
The activity acquisition module, for obtaining the activity that wearable device detection user is entered before sleep;
The correction value E determining module, for determining correction value E according to the activity size;
The correcting module is additionally operable to, according to the difference of the temperature value Tb and temperature value Ta and correction value E and preset value A
With the set temperature value of air-conditioner is modified.
17. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that the control module
Including:
According to the difference of current indoor ambient temperature value and the revised set temperature value, and previous indoor environment temperature
Angle value obtains cooler compressor running frequency variable quantity with the difference of current indoor ambient temperature value, is transported according to the compressor
Line frequency variable quantity obtains compressor operating frequency value, and controls compressor operating according to the compressor operating frequency.
18. air conditioner controlling devices as claimed in claim 12 based on wearable device, it is characterised in that described according to compression
Machine running frequency variable quantity obtains compressor operating frequency value also to be included:
Minimum of a value before obtaining in first compression machine running frequency and current compressor running frequency, according to the minimum of a value and pressure
Contracting machine running frequency variable quantity obtains compressor operating frequency value.
19. a kind of air-conditioners, it is characterised in that the air-conditioner includes the control dress as described in any one of claim 12-18
Put.
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PCT/CN2017/091271 WO2018076764A1 (en) | 2016-10-28 | 2017-06-30 | Air conditioner control method and apparatus based on wearable device, and air conditioner |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107894064A (en) * | 2017-10-09 | 2018-04-10 | 广东小天才科技有限公司 | Temperature adjusting method, device, equipment and storage medium based on wearable equipment |
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CN111594992A (en) * | 2019-02-20 | 2020-08-28 | 珠海格力电器股份有限公司 | Sleep environment control method and system |
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CN114517974A (en) * | 2021-12-27 | 2022-05-20 | 珠海格力节能环保制冷技术研究中心有限公司 | Air conditioner control method and air conditioner |
CN116026011A (en) * | 2023-01-31 | 2023-04-28 | 青岛海尔空调器有限总公司 | Method and device for controlling air conditioner, air conditioner and storage medium |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101625545A (en) * | 2008-07-11 | 2010-01-13 | Tcl集团股份有限公司 | Method for controlling frequency of frequency converting air conditioner |
WO2013103071A1 (en) * | 2012-01-06 | 2013-07-11 | パナソニック株式会社 | Device control apparatus, program, device control server, and device control system |
CN103673194A (en) * | 2012-08-31 | 2014-03-26 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof |
CN104748303A (en) * | 2015-03-13 | 2015-07-01 | 广东美的制冷设备有限公司 | Air conditioner control method, device and system based on wearable equipment |
CN104879887A (en) * | 2015-04-30 | 2015-09-02 | 广东美的制冷设备有限公司 | Air conditioner and method and system for controlling operation of same |
CN104913450A (en) * | 2015-05-29 | 2015-09-16 | 广东美的制冷设备有限公司 | Air conditioner as well as control method and control device of air conditioner |
CN104990207A (en) * | 2015-06-10 | 2015-10-21 | 浙江大学 | Dynamic self-adaptive air conditioner control system |
CN105241007A (en) * | 2015-09-29 | 2016-01-13 | 海信(广东)空调有限公司 | Variable frequency air conditioner control method and device |
-
2016
- 2016-10-28 CN CN201610970184.3A patent/CN106524407B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101625545A (en) * | 2008-07-11 | 2010-01-13 | Tcl集团股份有限公司 | Method for controlling frequency of frequency converting air conditioner |
WO2013103071A1 (en) * | 2012-01-06 | 2013-07-11 | パナソニック株式会社 | Device control apparatus, program, device control server, and device control system |
CN103673194A (en) * | 2012-08-31 | 2014-03-26 | 珠海格力电器股份有限公司 | Air conditioner and control method thereof |
CN104748303A (en) * | 2015-03-13 | 2015-07-01 | 广东美的制冷设备有限公司 | Air conditioner control method, device and system based on wearable equipment |
CN104879887A (en) * | 2015-04-30 | 2015-09-02 | 广东美的制冷设备有限公司 | Air conditioner and method and system for controlling operation of same |
CN104913450A (en) * | 2015-05-29 | 2015-09-16 | 广东美的制冷设备有限公司 | Air conditioner as well as control method and control device of air conditioner |
CN104990207A (en) * | 2015-06-10 | 2015-10-21 | 浙江大学 | Dynamic self-adaptive air conditioner control system |
CN105241007A (en) * | 2015-09-29 | 2016-01-13 | 海信(广东)空调有限公司 | Variable frequency air conditioner control method and device |
Non-Patent Citations (2)
Title |
---|
周鹏辉: "《物联网商业思维》", 31 October 2015, 红旗出版社 * |
田军: "《绿色家园与环境保护》", 31 December 2006, 黑龙江人民出版社 * |
Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2018076764A1 (en) * | 2016-10-28 | 2018-05-03 | 美的集团武汉制冷设备有限公司 | Air conditioner control method and apparatus based on wearable device, and air conditioner |
CN107894064A (en) * | 2017-10-09 | 2018-04-10 | 广东小天才科技有限公司 | Temperature adjusting method, device, equipment and storage medium based on wearable equipment |
CN111594992A (en) * | 2019-02-20 | 2020-08-28 | 珠海格力电器股份有限公司 | Sleep environment control method and system |
CN111594998A (en) * | 2019-02-21 | 2020-08-28 | 珠海格力电器股份有限公司 | Air conditioner control method, computer storage medium and air conditioner |
CN111520867A (en) * | 2020-05-15 | 2020-08-11 | 宁波奥克斯电气股份有限公司 | Control method and air conditioner |
CN112283906A (en) * | 2020-10-22 | 2021-01-29 | 佛山市顺德区美的电子科技有限公司 | Air conditioner control method and device, control equipment, air conditioner and storage medium |
CN112503741A (en) * | 2020-12-03 | 2021-03-16 | 珠海格力电器股份有限公司 | Equipment control method, device, equipment and storage medium |
CN113587413A (en) * | 2021-06-29 | 2021-11-02 | 重庆海尔空调器有限公司 | Control method and device for air conditioner and air conditioner |
CN113639449A (en) * | 2021-07-31 | 2021-11-12 | 青岛海尔空调器有限总公司 | Method and device for controlling air conditioner and air conditioner |
WO2023010859A1 (en) * | 2021-07-31 | 2023-02-09 | 青岛海尔空调器有限总公司 | Method and apparatus for air conditioner control, and air conditioner |
CN113639449B (en) * | 2021-07-31 | 2023-06-23 | 青岛海尔空调器有限总公司 | Method and device for controlling air conditioner and air conditioner |
CN114517974A (en) * | 2021-12-27 | 2022-05-20 | 珠海格力节能环保制冷技术研究中心有限公司 | Air conditioner control method and air conditioner |
CN114517974B (en) * | 2021-12-27 | 2024-05-24 | 珠海格力节能环保制冷技术研究中心有限公司 | Air conditioner control method and air conditioner thereof |
CN116026011A (en) * | 2023-01-31 | 2023-04-28 | 青岛海尔空调器有限总公司 | Method and device for controlling air conditioner, air conditioner and storage medium |
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