CN106247539A - Air-conditioner and one key start-up control method - Google Patents
Air-conditioner and one key start-up control method Download PDFInfo
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- CN106247539A CN106247539A CN201610649839.7A CN201610649839A CN106247539A CN 106247539 A CN106247539 A CN 106247539A CN 201610649839 A CN201610649839 A CN 201610649839A CN 106247539 A CN106247539 A CN 106247539A
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- Prior art keywords
- air
- conditioner
- temperature
- user
- key start
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Classifications
-
- 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
- F24F2110/20—Humidity
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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
- F24F11/30—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
- F24F11/62—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
- 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
- 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
- F24F11/65—Electronic processing for selecting an operating mode
-
- 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
- F24F2110/12—Temperature of the outside air
Abstract
The invention discloses a key start-up control method of a kind of air-conditioner, comprise the following steps: when receiving a key start-up command, obtain outdoor environment temperature, the temperature of Intelligent worn device detection and indoor air humidity;The temperature detected according to described Intelligent worn device and indoor air humidity are calculated the sendible temperature of user, and according to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;Control air-conditioner and perform described present mode of operation.The invention also discloses a kind of air-conditioner.The present invention can experience according to the true temperature of user, the control program that corresponding writ of execution user is comfortable, thus improves Consumer's Experience.
Description
Technical field
The present invention relates to refrigerating field, particularly relate to a kind of air-conditioner and one key start-up control method.
Background technology
Air-conditioner typically requires user and first presses power key, then could select to freeze, heats, blow or the mould such as dehumidifying
Formula, and concrete temperature is set by user oneself, a period of time when the mode operation that air-conditioner selects according to user
After, user is likely to the too high or too low of sensible temperature tune, now, then needs user the most manually to carry out temperature adjustment, leads
Cause troublesome poeration.For solving this problem, Auto On Mod taked by existing air-conditioner, and its scheme is the return air temperature with indoor set
Based on degree, automatic decision and enter each pattern.The shortcoming of this technology is: return air temperature can not truly reflect the body of user
Table temperature, therefore, in some environments, the pattern that the pattern not necessarily user that Auto Power On selects wants, thus reduce
Consumer's Experience.
Summary of the invention
Present invention is primarily targeted at a kind of air-conditioner of offer and one key start-up control method, it is intended to air-conditioner is started shooting
During startup, can experience according to the true temperature of user, the control program that corresponding writ of execution user is comfortable, thus improve user's body
Test.
For achieving the above object, the present invention provides a key start-up control method of a kind of air-conditioner, comprises the following steps:
S1, when receiving a key start-up command, obtain outdoor environment temperature, Intelligent worn device detection temperature and room
Interior air humidity;
S2, the temperature detected according to described Intelligent worn device and indoor air humidity are calculated the body-sensing temperature of user
Degree, and according to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;
S3, control air-conditioner perform described present mode of operation.
Preferably, also include before described step S3:
S4, when receiving a key start-up command, also obtain the design temperature of air-conditioner;
S5, according to described outdoor environment temperature, sendible temperature and the design temperature of described air-conditioner, determine working as of air-conditioner
Front operational mode.
Preferably, also include before described step S1:
Receive a key start-up command and the shell temperature of Intelligent worn device detection that described Intelligent worn device sends
Or the air themperature near user and indoor air humidity.
Preferably, also include before described step S1:
Receive near a key start-up command, indoor air humidity and shell temperature or the user of described mobile terminal transmission
Air themperature;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to institute
State mobile terminal.
Preferably, also include after described step S2:
Get Date, and when described current date enters and presets the Seasonal conversion phase, perform the air-conditioning in corresponding season
Device mode control programs.
Preferably, also include after described step S2:
Obtain current location information and current date, and when described current date enters and presets the Seasonal conversion phase, perform
The air-conditioner mode control programs in correspondence position and season.
For achieving the above object, the present invention also provides for a kind of air-conditioner, and described air-conditioner includes:
Acquisition module, for when receiving a key start-up command, obtains outdoor environment temperature, Intelligent worn device detection
Temperature and indoor air humidity;
Determine module, be calculated user for temperature and the indoor air humidity detected according to described Intelligent worn device
Sendible temperature, and according to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;
Control module, is used for controlling air-conditioner and performs described present mode of operation.
Preferably, it is additionally operable to, when receiving a key start-up command, also obtain the design temperature of air-conditioner;
Described determine module, be additionally operable to the setting temperature according to described outdoor environment temperature, sendible temperature and described air-conditioner
Degree, determines the present mode of operation of air-conditioner.
Preferably, described air-conditioner also includes:
First receiver module, a key start-up command and intelligence for receiving the transmission of described Intelligent worn device are dressed and are set
Air themperature near the shell temperature of standby detection or user and indoor air humidity.
Preferably, described air-conditioner also includes:
Second receiver module, for receiving a key start-up command, indoor air humidity and the body that described mobile terminal sends
Air themperature near table temperature or user;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to institute
State mobile terminal.
Preferably, described control module is additionally operable to:
Get Date, and when described current date enters and presets the Seasonal conversion phase, perform the air-conditioning in corresponding season
Device mode control programs.
Preferably, described control module is additionally operable to:
Obtain current location information and current date, and when described current date enters and presets the Seasonal conversion phase, perform
The air-conditioner mode control programs in correspondence position and season.
One key start-up control method and air-conditioner of the air-conditioner that the present invention provides, by receiving a key start-up command
Time, obtain outdoor environment temperature, the temperature of Intelligent worn device detection and indoor air humidity, and set according to described intelligence wearing
The temperature of standby detection and indoor air humidity are calculated the sendible temperature of user, according further to described outdoor environment temperature
Present mode of operation is determined, to control the air-conditioner described present mode of operation of execution with sendible temperature.So, air-conditioner start
During startup, can experience according to the true temperature of user, the control program that corresponding writ of execution user is comfortable, thus improve user's body
Test.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of a key start-up control method first embodiment of air-conditioner of the present invention;
Fig. 2 is the schematic flow sheet of key start-up control method second embodiment of air-conditioner of the present invention;
Fig. 3 is the schematic flow sheet of key start-up control method the 3rd embodiment of air-conditioner of the present invention;
Fig. 4 is the schematic flow sheet of key start-up control method the 4th embodiment of air-conditioner of the present invention;
Fig. 5 is the schematic flow sheet of key start-up control method the 5th embodiment of air-conditioner of the present invention;
Fig. 6 is that air-conditioner of the present invention performs the schematic diagram of mode control programs first embodiment in summer;
Fig. 7 is the schematic diagram that air-conditioner of the present invention performs mode control programs first embodiment in the winter time;
Fig. 8 is that air-conditioner of the present invention performs the schematic diagram of mode control programs the second embodiment in summer;
Fig. 9 is the schematic diagram that air-conditioner of the present invention performs mode control programs the second embodiment in the winter time;
Figure 10 is the schematic flow sheet of a key start-up control method sixth embodiment of air-conditioner of the present invention;
Figure 11 is the schematic flow sheet of key start-up control method the 7th embodiment of air-conditioner of the present invention;
Figure 12 is the schematic flow sheet of key start-up control method the 8th embodiment of air-conditioner of the present invention;
Figure 13 is the schematic flow sheet of key start-up control method the 9th embodiment of air-conditioner of the present invention;
Figure 14 is the high-level schematic functional block diagram of air-conditioner first embodiment of the present invention;
Figure 15 is the high-level schematic functional block diagram of air-conditioner the second embodiment of the present invention;
Figure 16 is the high-level schematic functional block diagram of air-conditioner the 3rd embodiment of the present invention;
Figure 17 is the high-level schematic functional block diagram of air-conditioner the 4th embodiment of the present invention.
The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.
Detailed description of the invention
Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.
The present invention provides a kind of air-conditioner and one key start-up control method, by when receiving a key start-up command,
Obtain outdoor environment temperature, the temperature of Intelligent worn device detection and indoor air humidity, and detect according to Intelligent worn device
Temperature and indoor air humidity be calculated sendible temperature, to determine current fortune according to outdoor environment temperature and sendible temperature
Row mode.Therefore, by Intelligent worn device etc., the present invention can know that the actual temperature of user is experienced truly, and then permissible
It is adjusted to be suitable for the air conditioning operating mode of user more accurately.So, it is possible not only to avoid user's manual operation, it is also possible to improve
Users'comfort.
With reference to Fig. 1, in one embodiment, a key start-up control method of described air-conditioner comprises the following steps:
Step S1, when receiving a key start-up command, obtain outdoor environment temperature, Intelligent worn device detection temperature
And indoor air humidity;
In the present embodiment, the temperature of Intelligent worn device detection and indoor air humidity, certainly can also is that there is temperature
The mobile terminal of detection function and humidity detecting function detects.And Intelligent worn device is wearable intelligent terminal,
Such as Intelligent bracelet, mobile terminal can be mobile phone, panel computer etc..Temperature detecting module and wet can also be set in remote controller
Degree detection module.When user wears this Intelligent worn device, the temperature of detection is the shell temperature of user;When user does not wears
During Intelligent worn device, the temperature of detection is then the air themperature near user.Therefore, it can the true of accurate acquisition user
Real temperature sensation.If during it should be appreciated that the temperature of detection is the shell temperature of user, it is also possible to arranged by air-conditioner
Infrared sensor detects, and the detection of described shell temperature is human skin temperature and the mean temperature of clothes temperature.
The Intelligent worn device that one key start-up command can be worn by user triggers, it is also possible to by arranged on remote controller
Key power on button triggers, it is also possible to triggered by the such as mobile phone of the mobile terminal with Intelligent worn device wireless connections.Specifically, intelligence
Wearable device can arrange a key power on button, it is also possible to arranges the display screen with temperature display function, can on this display screen
To arrange a virtual key power on button;Can also preset when Intelligent worn device rocks pre-determined number towards predetermined direction, can touch
Send out a key start-up command;Start shooting also by Voice command one key.
Step S2, the temperature detected according to described Intelligent worn device and indoor air humidity are calculated the body-sensing of user
Temperature, and according to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;
In the present embodiment, the sendible temperature computational methods of user are as follows:
Tp=f (Ta, RH1)=Ta-0.4* (Ta-10) (1-RH1),
Wherein, Ta is the Air Temperature near the shell temperature of user of the Intelligent worn device detection that user wears or user
Degree, RH1 is the indoor air humidity of user's periphery of described Intelligent worn device detection, and Tp is the sendible temperature of user.
Step S3, control air-conditioner perform described present mode of operation.
Air themperature in the present embodiment, near the shell temperature getting outdoor environment temperature and user or user
Time, air-conditioner then can be corresponding according to such as following table one or the preset rules of table two, determines present mode of operation, and it is current to perform this
Operational mode.In the present embodiment, design temperature is default acquiescence fixed value, it is therefore not necessary to obtain.Below with reference to concrete real
Execute example to describe in detail.
One key start-up control method of the air-conditioner that the present invention provides, by when receiving a key start-up command, obtains
The temperature of outdoor environment temperature, Intelligent worn device detection and indoor air humidity, and detect according to described Intelligent worn device
Temperature and indoor air humidity be calculated the sendible temperature of user, according further to described outdoor environment temperature and body-sensing
Temperature determines present mode of operation, to control the air-conditioner described present mode of operation of execution.So, by knowing use truly
The actual temperature impression at family, and then can be adjusted to be suitable for the air conditioning operating mode of user more accurately.So, it is possible not only to keep away
Exempt from user's manual operation, it is also possible to improve users'comfort.
In one embodiment, as in figure 2 it is shown, on the basis of shown in above-mentioned Fig. 1, also include before described step S3:
S4, when receiving a key start-up command, also obtain the design temperature of air-conditioner;
In the present embodiment, design temperature can obtain the temperature of user's input by Intelligent worn device, or passes through remote control
Temperature button on device obtains, or by the acquisition for mobile terminal with Intelligent worn device wireless connections.In this preferred embodiment,
Described design temperature is selected by user, and scalable.Certainly, in other embodiments, described design temperature can be pre-
If acquiescence fixed value.
S5, according to described outdoor environment temperature, sendible temperature and the design temperature of described air-conditioner, determine working as of air-conditioner
Front operational mode.
In the present embodiment, present mode of operation is established rules really then can carry out corresponding execution not according to season (summer and winter)
Same mode control programs, such as table one and table two and Fig. 6 and Fig. 7.
In the first embodiment, as it is shown on figure 3, on the basis of above-mentioned Fig. 1 or 2 Suo Shi, also wrap before described step S1
Include:
S6, the key start-up command receiving the transmission of described Intelligent worn device and the body surface temperature of Intelligent worn device detection
Air themperature near degree or user and indoor air humidity.
In this preferred embodiment, the air themperature near a described key start-up command, shell temperature or user and indoor
Air humidity is triggered by Intelligent worn device respectively and detects.Specifically, Intelligent worn device can arrange one key start press
Button, it is also possible to arrange the display screen with temperature and humidity display function, this display screen can arrange a virtual key start and press
Button;Can also preset when Intelligent worn device rocks pre-determined number towards predetermined direction, a key start-up command can be triggered;Also can lead to
Cross the start of Voice command one key.Temperature sensor and humidity sensor it is additionally provided with, owing to intelligence is dressed in Intelligent worn device
Equipment and contact skin, therefore, it can accurately reflect the air themperature near the shell temperature of user or user and user
The air humidity of periphery.So, in the present embodiment, air-conditioner can be experienced according to the true temperature of user, and the corresponding writ of execution is used
The control program that family is comfortable.
In a second embodiment, as shown in Figure 4, on the basis of above-mentioned Fig. 1 or 2 Suo Shi, also wrap before described step S1
Include:
S7, the key start-up command, indoor air humidity and the shell temperature that receive the transmission of described mobile terminal or user are attached
Near air themperature;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to institute
State mobile terminal.
In the present embodiment, a key start-up command is triggered by mobile terminal, and described indoor air humidity is by described mobile terminal
Detection, and the air themperature near shell temperature or user by described Intelligent worn device detect and send to described mobile eventually
End.Specifically, mobile terminal can arrange a key start quick botton, or arrange a key in airconditioning control application program and open
Machine button;Can also preset when mobile terminal rocks pre-determined number towards predetermined direction, a key start-up command can be triggered;Also can lead to
Cross the start of Voice command one key.Temperature sensor it is additionally provided with, owing to Intelligent worn device connects with skin in Intelligent worn device
Touch, therefore, it can accurately reflect the temperature sensation of user.So, in the present embodiment, air-conditioner can true according to user
Temperature sensation, the control program that corresponding writ of execution user is comfortable.The present embodiment is relative to first embodiment, and difference is only that a key
Start-up command is triggered by mobile terminal, and indoor air humidity is detected by described mobile terminal, so, owing to user uses mobile phone
Frequency is the highest, therefore, triggers a key start-up command by mobile phone, the air humidity detected in real time in conjunction with mobile terminal and
Air themperature near shell temperature that Intelligent worn device detects in real time or user, thus can also easily, be quickly
User provides comfortable ambient temperature.
In the first embodiment, as shown in Figures 5 to 7, on the basis of shown in above-mentioned any one of Fig. 1 to Fig. 4, described step
Also include after rapid S2:
S8, get Date, and when described current date enters and presets the Seasonal conversion phase, perform the sky in corresponding season
Adjust device mode control programs.
In a preferred embodiment, present mode of operation is really established rules and then can be come corresponding according to season (summer and winter)
Perform different mode control programs, such as following table one and table two:
Summer: May 1~October 31:
Meet condition | Operational mode |
T4≤15 | Heat carry-on sense pattern |
15 < T4 < 28 and Ta < Ts-3 | Heat carry-on sense pattern |
15 < T4 < 28 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
15 < T4 < 28 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥28 | Refrigeration feels with oneself pattern |
Table one
Winter: November 1~April 30:
Meet condition | Operational mode |
T4≤14 | Heat carry-on sense pattern |
14 < T4 < 27 and Ta < Ts-3 | Heat carry-on sense pattern |
14 < T4 < 27 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
14 < T4 < 27 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥27 | Refrigeration feels with oneself pattern |
Table two
Wherein, T4 is the outdoor environment temperature of outdoor sensor detection, and Ta is the Intelligent worn device detection that user wears
The shell temperature of user or user near air themperature, and the design temperature that Ts is air-conditioner Default Value or user set
Temperature, the interval range of this design temperature is 17~30 DEG C, specifically can be actually needed in conjunction with area, purposes etc. and rationally set
Put.When described design temperature is factory-default, could be arranged to 26 DEG C.
It should be appreciated that when outdoor sensor generation sensor fault, T4 is defaulted as 17 DEG C, and dresses when intelligence and set
When standby temperature sensor is broken down, Ta gives tacit consent to 26 DEG C.
In the present embodiment, air-conditioner can get Date when each starting up, and whether judges current date
Enter preset the Seasonal conversion phase, in one embodiment, two Seasonal conversion phases can be set, switching node be May 1 and
November 1, when current date is May 1, then the mode control programs of air-conditioner in corresponding execution table one;Work as current date
During for November 1, then the mode control programs of air-conditioner in corresponding execution table two.As such, it is possible to change according to seasonal temperature, give
User provides more preferable comfort.
In another embodiment, it is the shell temperature of user when detected by Intelligent worn device or infrared sensor
During Tcl, now, present mode of operation is really established rules and then can be carried out, according to season (summer and winter), the pattern that corresponding execution is different
Control program, such as Fig. 8 and Fig. 9, now, shell temperature is unadjustable.
In a second embodiment, as shown in Figure 10, on the basis of shown in above-mentioned any one of Fig. 1 to Fig. 4, described step
Also include after rapid S2:
S9, acquisition current location information and current date, and when described current date enters and presets the Seasonal conversion phase, hold
The air-conditioner mode control programs in row correspondence position and season.
In the present embodiment, add current location information relative to first embodiment, in conjunction with current location information with current
On the date, air-conditioner can be controlled and perform correspondence position and the air-conditioner mode control programs in season.Below will be with Shanghai and Guangzhou
Two positions are illustrated.
1, in current location it is Shanghai, and when current date enters May 1 summer~October 31:
Meet condition | Operational mode |
T4≤15 | Heat carry-on sense pattern |
15 < T4 < 28 and Ta < Ts-3 | Heat carry-on sense pattern |
15 < T4 < 28 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
15 < T4 < 28 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥28 | Refrigeration feels with oneself pattern |
Table one
2, in current location it is Shanghai, and when current date enters November 1 winter~April 30:
Meet condition | Operational mode |
T4≤14 | Heat carry-on sense pattern |
14 < T4 < 27 and Ta < Ts-3 | Heat carry-on sense pattern |
14 < T4 < 27 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
14 < T4 < 27 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥27 | Refrigeration feels with oneself pattern |
Table two
3, in current location it is Guangzhou, and when current date enters April 1 summer~November 14:
Meet condition | Operational mode |
T4≤14 | Heat carry-on sense pattern |
14 < T4 < 28 and Ta < TS-3 | Heat carry-on sense pattern |
14 < T4 < 28 and TS-3≤Ta≤TS+7 | Air supply pattern |
14 < T4 < 28 and TS+7 < Ta | Refrigeration feels with oneself pattern |
T4≥28 | Refrigeration feels with oneself pattern |
Table three
4, in current location it is Guangzhou, and when current date enters November 15 winter~March 31:
Table four
In one embodiment, as shown in figure 11, on the basis of shown in above-mentioned Fig. 2, also include after described step S3:
S10, when described design temperature changes, proceed to step S5, determine the actual motion pattern of described air-conditioner.
In the present embodiment, according to table three and table four, when design temperature changes, then corresponding operational mode will simultaneously
Change, therefore, when air-conditioner monitor design temperature change time, then by according in real time or the outdoor ring of periodic monitor
Air themperature near border temperature, sendible temperature or user and design temperature, determine the present mode of operation of air-conditioner.
In one embodiment, as shown in figure 12, on the basis of shown in above-mentioned Fig. 1, also include after described step S3:
S20, after the scheduled time, determine the actual motion pattern of described air-conditioner;
If S30 described actual motion pattern is consistent with described present mode of operation, then stop sentencing of actual motion pattern
Disconnected;
If S40 described actual motion pattern is inconsistent with described present mode of operation, then it is back to step S20, until following
Ring number of times reaches preset times.
In one embodiment, if air-conditioner is in off-mode, and the relay of off-premises station does not close, then connecing
When receiving a key start-up command, first it is defaulted as air supply pattern, after the relay monitoring off-premises station closes, carries out pattern immediately
Judging, if now judging, actual motion pattern is refrigeration mode, then cross after the scheduled time such as 1 minute, then rejudge once,
If being still judged as refrigeration mode after 1 minute, the most no longer carry out the judgement of actual motion pattern;If be judged as after 1 minute
Air supply pattern or heating mode, rejudged actual motion pattern the most again after 1 minute.It should be appreciated that pre-determined number
Arrange and can the most rationally arrange, in this preferred embodiment, can arrange 2 times, certainly can also arrange 1 time,
3 times or repeatedly.
In one embodiment, as shown in figure 13, on the basis of shown in above-mentioned Fig. 1, also include before described step S1:
Step S50, when receiving a key start-up command, it is judged that whether off-premises station starts;
If step S60 off-premises station is not actuated, it is determined that the present mode of operation of air-conditioner is air supply pattern;
In the present embodiment, owing to air-conditioner is when receiving a key start-up command, the relay that there is off-premises station is not also located
In the situation of closure state, therefore, it is necessary to the relay status of off-premises station is judged, when the relay of off-premises station is in
During off-state, now, off-premises station is the most not actuated, thus cannot obtain outdoor environment temperature, and therefore, acquiescence air-conditioner is currently transported
Row mode is air supply pattern.
If step S70 off-premises station starts, then perform step S1.
In the present embodiment, when the relay of off-premises station is in closure state, now, off-premises station starts, and obtains the most immediately
Air themperature near outdoor environment temperature and the shell temperature of user or user, and according to outdoor environment temperature and shell temperature
Or the air themperature near user carries out mode decision, to determine the present mode of operation of air-conditioner, and control air-conditioner execution
Present mode of operation.
The present invention also provides for a kind of air-conditioner 1, and with reference to Figure 14, in one embodiment, described air-conditioner includes:
Acquisition module 10, for when receiving a key start-up command, obtains outdoor environment temperature, Intelligent worn device inspection
The temperature surveyed and indoor air humidity;
In the present embodiment, the temperature of Intelligent worn device detection and indoor air humidity, certainly can also is that there is temperature
The mobile terminal of detection function and humidity detecting function detects.And Intelligent worn device is wearable intelligent terminal,
Such as Intelligent bracelet, mobile terminal can be mobile phone, panel computer etc..Temperature detecting module and wet can also be set in remote controller
Degree detection module.When user wears this Intelligent worn device, the temperature of detection is the shell temperature of user;When user does not wears
During Intelligent worn device, the temperature of detection is then the air themperature near user.Therefore, it can the true of accurate acquisition user
Real temperature sensation.If during it should be appreciated that the temperature of detection is the shell temperature of user, it is also possible to arranged by air-conditioner
Infrared sensor detects, and the detection of described shell temperature is human skin temperature and the mean temperature of clothes temperature.
The Intelligent worn device that one key start-up command can be worn by user triggers, it is also possible to by arrange on remote controller
One key power on button triggers, it is also possible to triggered by the such as mobile phone of the mobile terminal with Intelligent worn device wireless connections.Specifically, intelligence
One key power on button can be set wearable device, it is also possible to the display screen with temperature display function is set, on this display screen
A virtual key power on button can be set;Can also preset when Intelligent worn device rocks pre-determined number towards predetermined direction, can
Trigger a key start-up command;Start shooting also by Voice command one key.
Determine module 20, be calculated use for temperature and the indoor air humidity detected according to described Intelligent worn device
The sendible temperature at family, and according to described outdoor environment temperature and described sendible temperature, determine present mode of operation;
In the present embodiment, the sendible temperature computational methods of user are as follows:
Tp=f (Ta, RH1)=Ta-0.4* (Ta-10) (1-RH1),
Wherein, Ta is the Air Temperature near the shell temperature of user of the Intelligent worn device detection that user wears or user
Degree, RH1 is the indoor air humidity of user's periphery of described Intelligent worn device detection, and Tp is the sendible temperature of user.
Control module 30, is used for controlling air-conditioner and performs described present mode of operation.
Air themperature in the present embodiment, near the shell temperature getting outdoor environment temperature and user or user
Time, air-conditioner then can be corresponding according to such as following table one or the preset rules of table two, determines present mode of operation, and it is current to perform this
Operational mode.In the present embodiment, design temperature is default acquiescence fixed value, it is therefore not necessary to obtain.Below with reference to concrete real
Execute example to describe in detail.
The air-conditioner that the present invention provides, by when receiving a key start-up command, acquisition outdoor environment temperature, intelligence are worn
Wear temperature and the indoor air humidity of equipment Inspection, and the temperature that detects according to described Intelligent worn device and indoor air humidity
It is calculated the sendible temperature of user, determines according further to described outdoor environment temperature and sendible temperature and currently run mould
Formula, to control the air-conditioner described present mode of operation of execution.So, experienced by the actual temperature knowing user truly, enter
And can be adjusted to be suitable for the air conditioning operating mode of user more accurately.So, it is possible not only to avoid user's manual operation, also may be used
To improve users'comfort.
In one embodiment, as shown in figure 15, on the basis of shown in above-mentioned Figure 14, described acquisition module 10, it is additionally operable to
When receiving a key start-up command, also obtain the design temperature of air-conditioner;
In the present embodiment, design temperature can obtain the temperature of user's input by Intelligent worn device, or passes through remote control
Temperature button on device obtains, or by the acquisition for mobile terminal with Intelligent worn device wireless connections.This preferred embodiment
In, described design temperature is selected by user, and scalable.Certainly, in other embodiments, described design temperature can be
The acquiescence fixed value preset.
Described determine module 20, be additionally operable to according to described outdoor environment temperature, sendible temperature and the setting of described air-conditioner
Temperature, determines the present mode of operation of air-conditioner.
In the present embodiment, present mode of operation is established rules really then can carry out corresponding execution not according to season (summer and winter)
Same mode control programs, such as table one and table two and Fig. 6 and Fig. 7.
In the first embodiment, as shown in figure 16, on the basis of shown in above-mentioned Figure 14, described air-conditioner also includes:
First receiver module 40, for receiving a key start-up command and the intelligence wearing that described Intelligent worn device sends
Air themperature near the shell temperature of equipment Inspection or user and indoor air humidity.
In this preferred embodiment, the air themperature near a described key start-up command, shell temperature or user and indoor
Air humidity is triggered by Intelligent worn device respectively and detects.Specifically, Intelligent worn device can arrange one key start press
Button, it is also possible to arrange the display screen with temperature and humidity display function, this display screen can arrange a virtual key start and press
Button;Can also preset when Intelligent worn device rocks pre-determined number towards predetermined direction, a key start-up command can be triggered;Also can lead to
Cross the start of Voice command one key.Temperature sensor and humidity sensor it is additionally provided with, owing to intelligence is dressed in Intelligent worn device
Equipment and contact skin, therefore, it can accurately reflect the air themperature near the shell temperature of user or user and user
The air humidity of periphery.So, in the present embodiment, air-conditioner can be experienced according to the true temperature of user, and the corresponding writ of execution is used
The control program that family is comfortable.
In a second embodiment, as shown in figure 16, on the basis of shown in above-mentioned Figure 14, described air-conditioner also includes:
Second receiver module 50, for receive described mobile terminal send a key start-up command, indoor air humidity and
Air themperature near shell temperature or user;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to institute
State mobile terminal.
In the present embodiment, a key start-up command is triggered by mobile terminal, and described indoor air humidity is by described mobile terminal
Detection, and the air themperature near shell temperature or user by described Intelligent worn device detect and send to described mobile eventually
End.Specifically, mobile terminal can arrange a key start quick botton, or arranges a key in airconditioning control application program
Power on button;Can also preset when mobile terminal rocks pre-determined number towards predetermined direction, a key start-up command can be triggered;Also may be used
Started shooting by Voice command one key.Temperature sensor it is additionally provided with, due to Intelligent worn device and skin in Intelligent worn device
Contact, therefore, it can accurately reflect the temperature sensation of user.So, in the present embodiment, air-conditioner can true according to user
Real temperature sensation, the control program that corresponding writ of execution user is comfortable.The present embodiment is only that one relative to first embodiment, difference
Key start-up command is triggered by mobile terminal, and indoor air humidity is detected by described mobile terminal, so, owing to user uses mobile phone
Frequency the highest, therefore, trigger a key start-up command by mobile phone, the air humidity detected in real time in conjunction with mobile terminal with
And the air themperature near the shell temperature that detects in real time of Intelligent worn device or user, thus can also easily, quickly
Provide the user comfortable ambient temperature.
In the first embodiment, on the basis of shown in above-mentioned Figure 14 to Figure 16, described control module 30 is additionally operable to:
Get Date, and when described current date enters and presets the Seasonal conversion phase, perform the air-conditioning in corresponding season
Device mode control programs.
In a preferred embodiment, present mode of operation is really established rules and then can be come corresponding according to season (summer and winter)
Perform different mode control programs, such as following table one and table two:
Summer: May 1~October 31:
Meet condition | Operational mode |
T4≤15 | Heat carry-on sense pattern |
15 < T4 < 28 and Ta < Ts-3 | Heat carry-on sense pattern |
15 < T4 < 28 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
15 < T4 < 28 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥28 | Refrigeration feels with oneself pattern |
Table one
Winter: November 1~April 30:
Table two
Wherein, T4 is the outdoor environment temperature of outdoor sensor detection, and Ta is the Intelligent worn device detection that user wears
The shell temperature of user or user near air themperature, and the design temperature that Ts is air-conditioner Default Value or user set
Temperature, the interval range of this design temperature is 17~30 DEG C, specifically can be actually needed in conjunction with area, purposes etc. and rationally set
Put.When described design temperature is factory-default, could be arranged to 26 DEG C.
It should be appreciated that when outdoor sensor generation sensor fault, T4 is defaulted as 17 DEG C, and dresses when intelligence and set
When standby temperature sensor is broken down, Ta gives tacit consent to 26 DEG C.
In the present embodiment, air-conditioner can get Date when each starting up, and whether judges current date
Enter preset the Seasonal conversion phase, in one embodiment, two Seasonal conversion phases can be set, switching node be May 1 and
November 1, when current date is May 1, then the mode control programs of air-conditioner in corresponding execution table one;Work as current date
During for November 1, then the mode control programs of air-conditioner in corresponding execution table two.As such, it is possible to change according to seasonal temperature, give
User provides more preferable comfort.
In another embodiment, it is the shell temperature of user when detected by Intelligent worn device or infrared sensor
During Tcl, now, present mode of operation is really established rules and then can be carried out, according to season (summer and winter), the pattern that corresponding execution is different
Control program, such as Fig. 8 and Fig. 9, now, shell temperature is unadjustable.
In a second embodiment, as it is shown in fig. 7, on the basis of shown in above-mentioned Figure 14 to Figure 16, described control module 30
It is additionally operable to:
Obtain current location information and current date, and when described current date enters and presets the Seasonal conversion phase, perform
The air-conditioner mode control programs in correspondence position and season.
In the present embodiment, add current location information relative to first embodiment, in conjunction with current location information with current
On the date, air-conditioner can be controlled and perform correspondence position and the air-conditioner mode control programs in season.Below will be with Shanghai and Guangzhou
Two positions are illustrated.
1, in current location it is Shanghai, and when current date enters May 1 summer~October 31:
Table one
2, in current location it is Shanghai, and when current date enters November 1 winter~April 30:
Meet condition | Operational mode |
T4≤14 | Heat carry-on sense pattern |
14 < T4 < 27 and Ta < Ts-3 | Heat carry-on sense pattern |
14 < T4 < 27 and Ts-3≤Ta≤Ts+7 | Air supply pattern |
14 < T4 < 27 and Ts+7 < Ta | Refrigeration feels with oneself pattern |
T4≥27 | Refrigeration feels with oneself pattern |
Table two
3, in current location it is Guangzhou, and when current date enters April 1 summer~November 14:
Meet condition | Operational mode |
T4≤14 | Heat carry-on sense pattern |
14 < T4 < 28 and Ta < TS-3 | Heat carry-on sense pattern |
14 < T4 < 28 and TS-3≤Ta≤TS+7 | Air supply pattern |
14 < T4 < 28 and TS+7 < Ta | Refrigeration feels with oneself pattern |
T4≥28 | Refrigeration feels with oneself pattern |
Table three
4, in current location it is Guangzhou, and when current date enters November 15 winter~March 31:
Table four
In one embodiment, on the basis of shown in above-mentioned Figure 14 to Figure 16, described determine module 20, be additionally operable to predetermined
After time, determine the actual motion pattern of described air-conditioner;
Described control module 30, if determined by being additionally operable to, actual motion pattern is consistent with described present mode of operation, then
Stop the judgement of actual motion pattern;
Described control module 30, if it is inconsistent with described present mode of operation to be additionally operable to described actual motion pattern, again
Determine the actual motion pattern of described air-conditioner, until cycle-index reaches preset times.
In one embodiment, if air-conditioner is in off-mode, and the relay of off-premises station does not close, then connecing
When receiving a key start-up command, first it is defaulted as air supply pattern, after the relay monitoring off-premises station closes, carries out pattern immediately
Judging, if now judging, actual motion pattern is refrigeration mode, then cross after the scheduled time such as 1 minute, then rejudge once,
If being still judged as refrigeration mode after 1 minute, the most no longer carry out the judgement of actual motion pattern;If be judged as after 1 minute
Air supply pattern or heating mode, rejudged actual motion pattern the most again after 1 minute.It should be appreciated that pre-determined number
Arrange and can the most rationally arrange, in this preferred embodiment, can arrange 2 times, certainly can also arrange 1 time, 3
Secondary or repeatedly.
In one embodiment, as shown in figure 17, on the basis of shown in above-mentioned Figure 14 or Figure 16, described air-conditioner also wraps
Include:
Judge module 60, for when receiving a key start-up command, it is judged that whether off-premises station starts;
Described determine module 20, if it is not actuated to be additionally operable to off-premises station, it is determined that the present mode of operation of air-conditioner is air-supply
Pattern;
In the present embodiment, owing to air-conditioner is when receiving a key start-up command, the relay that there is off-premises station is not also located
In the situation of closure state, therefore, it is necessary to the relay status of off-premises station is judged, when the relay of off-premises station is in
During off-state, now, off-premises station is the most not actuated, thus cannot obtain outdoor environment temperature, and therefore, acquiescence air-conditioner is currently transported
Row mode is air supply pattern.
Described control module 30, starts if being additionally operable to off-premises station, then, when receiving a key start-up command, obtain outdoor ring
Air themperature near border temperature, the shell temperature of user or user and indoor environment temperature.
In the present embodiment, when the relay of off-premises station is in closure state, now, off-premises station starts, and obtains the most immediately
Air themperature near outdoor environment temperature and the shell temperature of user or user, and according to outdoor environment temperature and shell temperature
Or the air themperature near user carries out mode decision, to determine the present mode of operation of air-conditioner, and control air-conditioner execution
Present mode of operation.
These are only the preferred embodiments of the present invention, not thereby limit the scope of the claims of the present invention, every utilize this
Equivalent structure or equivalence flow process that bright description and accompanying drawing content are made convert, or are directly or indirectly used in other relevant skills
Art field, is the most in like manner included in the scope of patent protection of the present invention.
Claims (12)
1. a key start-up control method of an air-conditioner, it is characterised in that a key start-up control method bag of described air-conditioner
Include following steps:
S1, when receiving a key start-up command, obtain outdoor environment temperature, Intelligent worn device detection temperature and Interior Space
Air humidity degree;
S2, the temperature detected according to described Intelligent worn device and indoor air humidity are calculated the sendible temperature of user, and
According to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;
S3, control air-conditioner perform described present mode of operation.
2. a key start-up control method of air-conditioner as claimed in claim 1, it is characterised in that also wrap before described step S3
Include:
S4, when receiving a key start-up command, also obtain the design temperature of air-conditioner;
S5, according to described outdoor environment temperature, sendible temperature and the design temperature of described air-conditioner, determine the current fortune of air-conditioner
Row mode.
3. a key start-up control method of air-conditioner as claimed in claim 1 or 2, it is characterised in that before described step S1
Also include:
Receive described Intelligent worn device send a key start-up command and Intelligent worn device detection shell temperature or use
Air themperature near family and indoor air humidity.
4. a key start-up control method of air-conditioner as claimed in claim 1 or 2, it is characterised in that before described step S1
Also include:
Receive described mobile terminal send a key start-up command, indoor air humidity and shell temperature or user near air
Temperature;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to described shifting
Dynamic terminal.
5. a key start-up control method of air-conditioner as claimed in claim 1, it is characterised in that also wrap after described step S2
Include:
Get Date, and when described current date enters and presets the Seasonal conversion phase, perform the air-conditioner mould in corresponding season
Formula controls program.
6. a key start-up control method of air-conditioner as claimed in claim 1, it is characterised in that also wrap after described step S2
Include:
Obtain current location information and current date, and when described current date enters and presets the Seasonal conversion phase, perform correspondence
The air-conditioner mode control programs in position and season.
7. an air-conditioner, it is characterised in that described air-conditioner includes:
Acquisition module, for when receiving a key start-up command, obtains outdoor environment temperature, the temperature of Intelligent worn device detection
Degree and indoor air humidity;
Determine module, be calculated the body of user for the temperature detected according to described Intelligent worn device and indoor air humidity
Temperature-sensitive degree, and according to described outdoor environment temperature and described sendible temperature, determine the present mode of operation of air-conditioner;
Control module, is used for controlling air-conditioner and performs described present mode of operation.
8. air-conditioner as claimed in claim 7, it is characterised in that described acquisition module, is additionally operable to receiving a key start
During instruction, also obtain the design temperature of air-conditioner;
Described determine module, be additionally operable to according to described outdoor environment temperature, sendible temperature and the design temperature of described air-conditioner, really
Determine the present mode of operation of air-conditioner.
9. air-conditioner as claimed in claim 7 or 8, it is characterised in that described air-conditioner also includes:
First receiver module, for receiving a key start-up command and the Intelligent worn device inspection that described Intelligent worn device sends
Air themperature near the shell temperature surveyed or user and indoor air humidity.
10. air-conditioner as claimed in claim 7 or 8, it is characterised in that described air-conditioner also includes:
Second receiver module, for receiving a key start-up command, indoor air humidity and the body surface temperature that described mobile terminal sends
Air themperature near degree or user;
Wherein, the air themperature near described shell temperature or user is detected and sends by described Intelligent worn device to described shifting
Dynamic terminal.
11. air-conditioners as claimed in claim 7, it is characterised in that described control module is additionally operable to:
Get Date, and when described current date enters and presets the Seasonal conversion phase, perform the air-conditioner mould in corresponding season
Formula controls program.
12. air-conditioners as claimed in claim 7, it is characterised in that described control module is additionally operable to:
Obtain current location information and current date, and when described current date enters and presets the Seasonal conversion phase, perform correspondence
The air-conditioner mode control programs in position and season.
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PCT/CN2017/090612 WO2018028327A1 (en) | 2016-08-09 | 2017-06-28 | Air conditioner and single-key power-on control method thereof |
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