CN102147138A - Method for controlling sleep mode of air conditioner - Google Patents

Method for controlling sleep mode of air conditioner Download PDF

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Publication number
CN102147138A
CN102147138A CN2010101090011A CN201010109001A CN102147138A CN 102147138 A CN102147138 A CN 102147138A CN 2010101090011 A CN2010101090011 A CN 2010101090011A CN 201010109001 A CN201010109001 A CN 201010109001A CN 102147138 A CN102147138 A CN 102147138A
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temperature
air
conditioner
scope
mode
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CN102147138B (en
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岳锐
袁琪
喻耀明
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Gree Electric Appliances Inc of Zhuhai
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Gree Electric Appliances Inc of Zhuhai
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Abstract

The invention discloses a method for controlling a sleep mode of an air conditioner, which comprises an afternoon nap mode and a night sleep mode, wherein the afternoon nap mode is realized by adopting a user-defined control mode or set control mode, in the user-defined control mode, a user sets an air conditioner operating temperature Tset, a temperature increment delta T and an air conditioner operating time t1, the air conditioner operates according to the user set temperature and gradually regulates the temperature to Tset+/-delta T within the user set time t1; and in the set control mode, the last operating temperature of the air conditioner is read and is enabled to be equal to the set temperature Tset, the temperature is divided into three control ranges by adopting an air conditioner default operating time, and the temperature is controlled in each control range according to a set program. The invention provides a control method of the afternoon nap mode, the air conditioner selects the afternoon nap mode or night sleep mode according to the use demands in an operating process to ensure that the environment can obtain actually required temperature and the user obtains proper heat comfort, and thus better sleep environment can be created and purpose of saving energy can be achieved.

Description

The control method of air-conditioner sleep mode
[technical field]
The present invention relates to field of air conditioning, refer in particular to a kind of air-conditioner control method.
[background technology]
Describe in a large number at the air-conditioning sleep pattern is existing in the prior art, but these technology major parts are the sleep pattern control at night at room temperature, and most of users also have the custom of turning on the aircondition when afternoon nap, night, sleep pattern was applied in the sleep at noon like this, humiture adjusting in temperature, humidity each side environment and evening all differs widely, sleep pattern was used in noon sleep and can not obtains the comfortable environment temperature night so, existing air-conditioning control model bad adaptability far can not satisfy the demands.
Therefore, provide a kind of realize taking a nap after lunch and the air-conditioner control method of nighttime sleep pattern control real in necessary.
[summary of the invention]
The object of the present invention is to provide and a kind ofly realize taking a nap after lunch and the air-conditioner sleep mode control method of nighttime sleep pattern control.
For realizing the object of the invention, provide following technical scheme:
A kind of control method of air-conditioner sleep mode, it comprise the afternoon nap pattern and night sleep pattern, can select User Defined control model or default mode after the sleep pattern entering this afternoon nap pattern or night.
In self-defined control mode: the user is provided with the operation of air conditioner temperature T If, temperature increment Δ T and operation of air conditioner time t1, air-conditioner according to the operation of user's design temperature and in the time t1 that the user sets gradually with adjustment to T If± Δ T according to regulating back temperature operation, finishes up to the running time of setting then;
In setting control mode: the temperature that reads air-conditioning operation last time makes it equal design temperature T If, the running time of adopting the air-conditioning acquiescence temperature is divided three modification scopes, in each modification scope,, according to regulating back temperature operation, finish then up to the running time of setting according to the setting program regulation and control.
In the setting control mode of afternoon nap pattern, this method also is divided into heating mode and refrigeration mode.
During heating mode: temperature is divided a3, b3, three modification scopes of c3, if design temperature is in the a3 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation made indoor environment temperature rise 2 ℃ within a certain period of time, carries out according to this temperature then; If design temperature is in the b3 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, carries out according to this temperature then; If design temperature is c3, after indoor environment temperature reached design temperature, air-conditioner was failure to actuate, and carried out according to this temperature then.
During refrigeration mode: temperature is divided a4, b4, three modification scopes of c4, if design temperature is in the b4 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation made indoor environment temperature rise 2 ℃ within a certain period of time, carries out according to this temperature then; If design temperature is in the c4 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, carries out according to this temperature then; If design temperature is a4, after indoor environment temperature reached design temperature, air-conditioner was failure to actuate, and carried out according to this temperature then.
Sleep pattern at night in this control method also includes self-defined control mode or sets control mode,
In self-defined control mode: the user sets air-conditioner running temperature T If, temperature increment Delta T and operation of air conditioner time t2, be divided into three phases running time, in the first running time section, air-conditioner temperature is from T If-Δ T rises to design temperature T gradually If, air-conditioner is according to design temperature T in the second running time section IfOperation, indoor temperature rises to T=T gradually in the 3rd running time If+ Δ T.
In setting control mode: the temperature when air-conditioner reads and moved last time also makes it equal design temperature T If, the running time of adopting the air-conditioning acquiescence temperature is divided a5, b5, four modification scopes of c5, d5, in each modification scope,, according to regulating back temperature operation, finish then up to the running time of setting according to the setting program regulation and control.
In the setting control mode of sleep pattern at night, this method also is divided into heating mode and refrigeration mode.
During refrigeration mode: temperature is divided a5, b5, four modification scopes of c5, d5, when design temperature is a5, after indoor environment temperature reaches design temperature, the running temperature of air-conditioner per hour temperature raises 1 ℃, raise and keep this temperature after 3 ℃, after operation 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since; When initial temperature was set to b5, after indoor environment temperature reached design temperature, the running temperature of air-conditioner per hour temperature raise 1 ℃, raise to keep this temperature after 2 ℃, and after operation 7 hours, 1 ℃ of temperature reduction moves under this temperature ever since; When initial temperature was set to c5, after indoor environment temperature reached design temperature, the running temperature of air-conditioner per hour temperature raise 1 ℃, raise to keep this temperature after 1 ℃, and after operation 7 hours, 1 ℃ of temperature reduction moves under this temperature ever since; When initial temperature is set to d5, after indoor environment temperature reaches design temperature, under this temperature, move, after operation 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since.
During heating mode: temperature is divided a6, b6, four modification scopes of c6, d6, when initial temperature is set to d6, after indoor environment temperature reaches design temperature, under this temperature, move always; When initial temperature is set to a6, to open behind the sleep function when indoor environment temperature and reach design temperature, the running temperature of air-conditioner per hour temperature reduces by 1 ℃, keeps this temperature after reducing by 1 ℃; When initial temperature is set to b6, to open behind the sleep function when indoor environment temperature and reach design temperature, the running temperature of air-conditioner per hour temperature reduces by 1 ℃, keeps this temperature after reducing by 2 ℃; When initial temperature is set to c6, to open behind the sleep function when indoor environment temperature and reach design temperature, the running temperature of air-conditioner per hour temperature reduces by 1 ℃, keeps this temperature after reducing by 3 ℃.
In the sleep pattern control procedure, can also regulate and control according to the real-time condition of ambient temperature and humidity, read moisture signal by humidity sensor, read temperature signal by temperature sensor, carry out adjustment according to the temperature-humidity signal that is read.
Wherein temperature control method is: formulate earlier the humiture curve as required, and formulate each the scope temperature control of this curve and regulate formula, according to scope under curve judgement institute's humidity that reads and the temperature, regulate formula according to scope temperature control under it and carry out adjustment, then return the scope under the temperature-humidity signal that is read that rejudges if any the input of new moisture signal, regulate formula according to scope temperature control under it and carry out adjustment.
Can preestablish humidity acquiescence minimum and peak, when the humidity value that reads is then opened humidifier until reaching peak less than minimum.
Under the air-conditioning heating mode, can divide a1, b1, four humiture control scopes of c1, d1 according to the humiture curve, and formulate each scope temperature control and regulate formula, a1 scope: T 0=T+1, b1 scope: T 0=T, c1 scope: T 0=T-1, d1 scope: T 0=T-2, wherein T is the current environmental temperature value, T 0Be the running temperature value behind the temperature adjusting.
Under the air conditioner refrigerating pattern, divide a2, b2, c2, d2, five humiture control scopes of e2 according to the humiture curve, and formulate each scope temperature control and regulate formula, a2 scope: T 0=T+2, b2 scope: T 0=T+1, c2 scope: T 0=T, d2 scope: T 0=T-1, e2 scope: T 0=T-2, wherein T is the current environmental temperature value, T 0Be the running temperature value behind the temperature adjusting.
Pure and fresh in order to guarantee surrounding air, CO can also be set 2Sensor, and CO is set 2Content default maximum and minimum of a value read CO 2The signal value of sensor is when the value that reads is just moved ventilatory until reaching minimum of a value greater than default maximum.
The contrast prior art, the present invention has the following advantages:
The present invention proposes the control method of air-conditioning afternoon nap pattern, air-conditioning in running can according to user's needs select the afternoon nap pattern or night sleep pattern, make environment can obtain the temperature of actual needs, make the user obtain appropriate thermal comfort, not only can create good sleep environment and can also reach purpose of energy saving.
[description of drawings]
Fig. 1 is the flow chart of humiture interlock control;
Fig. 2 is a humidity control flow chart of the present invention;
Fig. 3 is air CO of the present invention 2The content control flow chart;
Fig. 4 is the present invention's refrigeration mode flow chart of taking a nap after lunch;
Fig. 5 is the present invention's heating mode flow chart of taking a nap after lunch;
Fig. 6 is the refrigeration mode flow chart of sleeping night of the present invention;
Fig. 7 is the heating mode flow chart of sleeping night of the present invention;
Fig. 8 is the refrigeration mode flow chart of humiture interlock control;
Fig. 9 is the refrigeration mode humiture curve map of humiture interlock control;
Figure 10 is the heating mode flow chart of humiture interlock control;
Figure 11 is the heating mode humiture curve map of humiture interlock control;
Figure 12 is flow process 7 schematic diagrames of the present invention;
Figure 13 is flow process 8 schematic diagrames of the present invention;
Figure 14 is flow process 9 schematic diagrames of the present invention;
Figure 15 is flow process 10 schematic diagrames of the present invention.
[specific embodiment]
See also Fig. 1, the control model of the present invention demand of answering can select the to take a nap after lunch control model or the control model of sleeping night increase the diversification hommization and select, and realize energy-conserving and environment-protective simultaneously.
In addition, can also control air-conditioning in conjunction with indoor temperature, humidity, CO2, this pattern comprises temperature sensor, humidity sensor and CO2 sensor, can control variation of temperature in conjunction with indoor humidity, has created a good sleep environment.
Wherein temperature sensor output signal 1, humidity sensor output signal 2, CO2 sensor output signal 3, humidity control program and CO2 control program are started working simultaneously when the user starts shooting, and continual output live signal is provided with the back and uses.The humidity control program sees also Fig. 2, the CO2 control program sees also Fig. 3, wherein humidity range and CO2 scope are set certain scope according to GB or relevant criterion, be lower than this scope lower limit when detecting humidity value, then begin humidification, the upper limit that reaches this scope up to humidity value stops humidification; When detecting CO2 and be higher than this range limit, open ventilatory, reach this scope lower limit up to CO2 value and stop to take a breath.
The control method of this air-conditioning sleep pattern, described sleep pattern are divided into afternoon nap pattern (Fig. 4,5) and sleep pattern at night (Fig. 6,7), and the manual variable of setup parameter after the user selects corresponding sleep pattern also can be selected default value.
Afternoon nap pattern detailed process is as follows: the user selects can select oneself to be provided with operational factor after the afternoon nap pattern or select to carry out according to default parameters.As select oneself to regulate operational factor: the user can oneself be provided with that the operation of air conditioner temperature T is established, the increment Delta T of temperature and operation of air conditioner time.Air-conditioner is established temperature rising (perhaps descending) ± Δ T to T gradually according to the operation of user's design temperature and in the time that the user sets.And humidity sensor is that signal 2 produces in the work that does not stop if any new humidity value during the course, and air-conditioning moves the scope that humiture interlock control program reads the real-time temperature value and finds out best output temperature according to the interlock of the humiture in appendix curve at once.The operation humiture interlock control program that air-conditioning does not stop was shut down after the running time that reaches user's setting.As select default parameters: the temperature that reads air-conditioning operation last time makes it equal design temperature.
As shown in Figure 4, during heating mode: if design temperature is 16 ℃, after indoor environment temperature reaches design temperature, air-conditioner continues operation makes indoor environment temperature rise 3 ℃ within a certain period of time, carry out according to this temperature then,, then enter program 6. if new moisture signal input is arranged; If design temperature is 17~27 ℃, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 2 ℃ indoor environment temperature within a certain period of time gradually, carry out according to this temperature then, if new moisture signal input is arranged, then enters program 6., shown in Fig. 8~11; If design temperature is 28~30 ℃, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, carried out according to this temperature then, if new moisture signal input is arranged, then entered program 6..
As shown in Figure 5, during refrigeration mode: if design temperature is 16~23 ℃, after indoor environment temperature reaches design temperature, air-conditioner continues operation makes indoor environment temperature rise 2 ℃ within a certain period of time, air-conditioner is according to this temperature operation then, if new moisture signal input is arranged, then enters step procedure 6.; If design temperature is 24~29 ℃, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, and air-conditioner is according to this temperature operation then, if new moisture signal input is arranged, then enters program 6.; If design temperature is 30 ℃, after indoor environment temperature reached design temperature, air-conditioner was failure to actuate, and then according to this temperature operation, if new moisture signal input is arranged, then entered program 6., finished up to the running time of setting.
The certain hour of mentioning in said process is the best lunch break 30min that everybody generally believes, also can change other times as required into.The difference of cooling and warming is the temperature range difference, specifically embodies in the program of afternoon nap pattern.
Night, the sleep pattern detailed process was as follows: (is example with the refrigeration) user selects can to select after the sleep pattern oneself to set operational factor or according to the parameter operation of acquiescence.As select oneself to set operational factor: the user sets that air-conditioner running temperature T establishes, the increment Delta T of temperature and operation of air conditioner time.Be divided into three phases the running time here: phase I---human body enters the stage of sleep; Second stage---the stage of human body deep sleep; The stage that phase III---human body is waken up soon; According to the sleep habit of human body, the duration ratio of setting this three phases at the master controller of air-conditioning is 1: 5: 1 in advance.After the user had set, 10. air-conditioner carried out according to program, as Figure 15.In the-running time section, air-conditioner temperature from T establish-Δ T rises to design temperature T gradually and establishes, air-conditioner is established operation according to design temperature T in the second running time section, indoor temperature rises to T=T gradually in the 3rd running time If+ Δ T.In this pattern in case new signal 2 input is arranged, air-conditioning then working procedure 6., shown in Fig. 8,10, up to the air-conditioner power cut-off.Move according to default parameters as selecting: the temperature when air-conditioner reads and moved last time also makes it equal design temperature T establishing, judge that then T establishes affiliated scope, 7. 8. 9. carry out according to program, as Figure 12~14.
As shown in Figure 6, during refrigeration mode: when (1) is 16~23 ℃ when design temperature, work as indoor environment temperature behind the unlatching sleep function and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature raise 1 ℃, raises and keeps this temperature after 3 ℃, after moving 7 hours, temperature reduces by 1 ℃, under this temperature, move ever since,, then enter program 6. if new moisture signal input is arranged; (2) when initial temperature is set to 24~27 ℃, work as indoor environment temperature behind the unlatching sleep function and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature raise 1 ℃, raise and keep this temperature after 2 ℃, after operation 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since, if new moisture signal input is arranged, then enters program 6.; (3) when initial temperature is set to 28~29 ℃, work as indoor environment temperature behind the unlatching sleep function and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature raise 1 ℃, raise and keep this temperature after 1 ℃, after operation 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since, if new moisture signal input is arranged, then enters program 6.; (4) when initial temperature is set to 30 ℃, when indoor environment temperature reaches design temperature, under this temperature, move, after operation 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since, if new moisture signal input is arranged, then enters program 6..
As shown in Figure 7, during heating mode: when (1) was set to 16 ℃ when initial temperature, when indoor environment temperature reaches design temperature, air-conditioner continues operation moved indoor environment temperature always under this temperature, if new moisture signal input is arranged, then enters program 6.; (2) when initial temperature is set to 17~20 ℃, open behind the sleep function when indoor environment temperature and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 1 ℃, if new moisture signal input is arranged, then enters program 6.; (3) when initial temperature is set to 21~27 ℃, open behind the sleep function when indoor environment temperature and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 2 ℃, if new moisture signal input is arranged, then enters program 6.; (4) when initial temperature is set to 28~30 ℃, open behind the sleep function when indoor environment temperature and reach design temperature, air-conditioner continue operation make indoor environment temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 3 ℃, if new moisture signal input is arranged, then enters program 6..
7. 9. Figure 12 and Figure 14 are respectively program, the 7. 9. middle equivalent n that sets of program 0, be equivalent to temperature increment Δ T, be used to finish the circulation of Fig. 6, Fig. 7.As shown in Figure 6, during refrigeration mode: when (1) is 16~23 ℃ when design temperature, make n 0=3, n=1, when air-conditioning brings into operation according to T=T If+ n (n=1) operation after operation 1 hour, is judged the size of n and n0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf+2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures.(2) when design temperature is 24~27 ℃, make n 0=2, n=1, when air-conditioning brings into operation according to T=T If+ n (n=1) operation after operation 1 hour, is judged the size of n and n 0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf+2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures.(3) when design temperature is 28~29 ℃, make n 0=1, n=1, when air-conditioning brings into operation according to T=T If+ n (n=1) operation after operation 1 hour, is judged the size of n and n 0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf+2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures.(4) when design temperature was 30 ℃, air-conditioning moved according to Current Temperatures, moved according to spending than Current Temperatures low 1 after 7 hours.As shown in Figure 7, during heating mode: when (1) was 16 ℃ when design temperature, air-conditioning moved according to Current Temperatures, moved according to spending than Current Temperatures low 1 after 7 hours.(2) when design temperature is 17~20 ℃, make n 0=1, n=1, when air-conditioning brings into operation according to T=T If-n (n=1) operation after operation 1 hour, is judged the size of n and n0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf-2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures.(3) when design temperature is 21~27 ℃, make n 0=2, n=1, when air-conditioning brings into operation according to T=T If-n (n=1) operation after operation 1 hour, is judged the size of n and n0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf-2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures.(4) when design temperature is 28~30 ℃, make n 0=31, n=1, when air-conditioning brings into operation according to T=T If-n (n=1) operation after operation 1 hour, is judged the size of n and n0, if n<n 0, making n=n+1 (being n=2), air-conditioning is according to T=T IfIf-2 operations are n>n 0Continuation moves according to Current Temperatures.Undertaken by this circulation, up to n<n 0Be false, air-conditioning moves according to Current Temperatures.After 7 hours, according to moving than low 1 degree of Current Temperatures
Please refer to Fig. 8,9, the refrigeration mode flow chart and the humiture curve map of humiture interlock control; And Figure 10,11, the heating mode flow chart and the humiture curve map of humiture interlock control.
In the present embodiment, under the air-conditioning heating mode, divide a1, b1, four humiture control scopes of c1, d1 according to the humiture curve, and formulate each scope temperature control and regulate formula, a1 scope: T0=T+1, b1 scope: T0=T, c1 scope: T0=T-1, d1 scope: T0=T-2, wherein T is current indoor environment temperature value, T0 is the running temperature value behind the temperature adjusting.
Under the air conditioner refrigerating pattern, divide a2, b2, c2, d2, five humiture control scopes of e2 according to the humiture curve, and formulate each scope temperature control and regulate formula, a2 scope: T0=T+2, b2 scope: T0=T+1, c2 scope: T0=T, d2 scope: T0=T-1, e2 scope: T0=T-2, wherein T is current indoor environment temperature value, T0 is the running temperature value behind the temperature adjusting.
6. humiture interlock control see also program, and when freezing or heating: 2 inputs of new signal are arranged, and program is transferred temperature sensor and read up-to-date temperature value, reads the temperature output of the best in conjunction with the humiture interlock curve of refrigeration or heating mode.
6. this program can independently go out to be arranged in the air-conditioning, this program can only be regulated temperature by reading moisture signal, and then make the room reach the humiture of best (the most suitable sleep quality), design temperature is meant the running temperature of air-conditioning, and described raising once or reduce once all can Infinite Cyclic.Refrigeration all can enter regional c2 at last, heats at last and all can enter regional b1.
The above is preferred embodiment of the present invention only, and protection scope of the present invention is not limited thereto, and anyly all belongs within the protection domain of the present invention based on the equivalent transformation on the technical solution of the present invention.

Claims (14)

1. the control method of an air-conditioner sleep mode is characterized in that, it comprise the afternoon nap pattern and night sleep pattern, can select User Defined control model or default mode after the sleep pattern entering this afternoon nap pattern or night.
2. the control method of air-conditioner sleep mode as claimed in claim 1 is characterized in that, the User Defined control model in the described afternoon nap pattern is provided with the operation of air conditioner temperature T by the user If, temperature increment Δ T and operation of air conditioner time t1, air-conditioner is according to the operation of user's design temperature and gradually running temperature is adjusted to T in the time t1 that the user sets If+ Δ T according to the Current Temperatures operation, finishes up to the running time of setting then.
3. the control method of air-conditioner sleep mode as claimed in claim 1 is characterized in that, the default mode in the described afternoon nap pattern makes it equal design temperature T by the temperature that reads air-conditioning operation last time If, the running time of adopting the air-conditioning acquiescence temperature is divided three modification scopes, in each modification scope,, according to the temperature operation of regulation and control back, finish then up to the running time of setting according to the setting program regulation and control.
4. the control method of air-conditioner sleep mode as claimed in claim 3 is characterized in that, the default mode in the described afternoon nap pattern, when air-conditioner is in refrigeration mode:
Temperature is divided a3, b3, three modification scopes of c3, and in the a3 scope, after indoor environment temperature reached design temperature, the running temperature of air-conditioner rose 2 ℃ within a certain period of time as if design temperature, then according to this temperature operation;
If design temperature is in the b3 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, then according to this temperature operation;
If design temperature is c3, after indoor environment temperature reached design temperature, air-conditioner was failure to actuate, then according to this temperature operation.
5. the control method of air-conditioner sleep mode as claimed in claim 3 is characterized in that, the default mode in the described afternoon nap pattern, when air-conditioner is in heating mode:
Temperature is divided a4, b4, three modification scopes of c4, and in the a4 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation made indoor environment temperature rise 3 ℃ within a certain period of time as if design temperature, and air-conditioner is according to this temperature operation then;
If design temperature is in the b4 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 2 ℃ indoor environment temperature within a certain period of time gradually, and air-conditioner is according to this temperature operation then;
If design temperature is in the c4 scope, after indoor environment temperature reached design temperature, air-conditioner continues operation rose 1 ℃ indoor environment temperature within a certain period of time gradually, and air-conditioner is according to this temperature operation then.
6. the control method of air-conditioner sleep mode as claimed in claim 1 is characterized in that, the User Defined pattern in the described night sleep pattern is provided with the operation of air conditioner temperature T by the user If, temperature increment Δ T and operation of air conditioner time t2, be divided into three phases running time, in the first running time section, the running temperature of air-conditioning is from T If-Δ T rises to design temperature T gradually If, air-conditioner is according to design temperature T in the second running time section IfOperation, the operation of air conditioner temperature rises to T=T gradually in the 3rd running time If+ Δ T.
7. the control method of air-conditioner sleep mode as claimed in claim 1 is characterized in that, the default mode in the described night sleep pattern makes it equal design temperature T by the temperature that reads air-conditioning operation last time If, the running time of adopting the air-conditioning acquiescence temperature is divided four modification scopes, in each modification scope,, according to the temperature operation of regulation and control back, finish then up to the running time of setting according to the setting program regulation and control.
8. the control method of air-conditioner sleep mode as claimed in claim 7 is characterized in that, the default mode in the described night sleep pattern, when air-conditioner is in refrigeration mode:
Temperature is divided a5, b5, four modification scopes of c5, d5, when design temperature during in the a5 scope, after indoor environment temperature reaches design temperature, the running temperature of air-conditioner per hour temperature raises 1 ℃, raise and keep this temperature after 3 ℃, when moving default mode after 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since;
When initial temperature was arranged on the b5 scope, after indoor environment temperature reached design temperature, the running temperature of air-conditioner per hour temperature raise 1 ℃, raise and keep this temperature after 2 ℃, when moving default mode after 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since;
When initial temperature was arranged on the c5 scope, after indoor environment temperature reached design temperature, the running temperature of air-conditioner per hour temperature raise 1 ℃, raise and keep this temperature after 1 ℃, when moving default mode after 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since;
When initial temperature is arranged on the d5 scope, under this temperature, move, when moving default mode after 7 hours, temperature reduces by 1 ℃, moves under this temperature ever since.
9. the control method of air-conditioner sleep mode as claimed in claim 7 is characterized in that, the default mode in the described night sleep pattern, when air-conditioner is in heating mode:
Temperature is divided a6, b6, four modification scopes of c6, d6, when initial temperature is arranged on the a6 scope, after indoor environment temperature reaches design temperature, air-conditioner continue operation make running temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 1 ℃;
When initial temperature is set to b6, after indoor environment temperature reaches design temperature, air-conditioner continue operation make running temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 2 ℃;
When initial temperature is arranged on the c6 scope, after indoor environment temperature reaches design temperature, air-conditioner continue operation make running temperature per hour temperature reduce by 1 ℃, keep this temperature after reducing by 3 ℃;
When initial temperature is arranged on the d6 scope, under this temperature, move always.
10. as the control method of any described air-conditioner sleep mode of claim 1~9, it is characterized in that, it also comprises the steps: to read the moisture signal of humidity sensor and the temperature signal of temperature sensor in the sleep pattern control procedure, carry out adjustment according to the temperature-humidity signal that is read
Wherein temperature control method is: formulate earlier the humiture curve as required, and formulate each the scope temperature control of this curve and regulate formula, according to scope under curve judgement institute's humidity that reads and the temperature, regulating formula according to scope temperature control under it regulates the operation of air conditioner temperature, then return the scope under the temperature-humidity signal that is read that rejudges if any the input of new moisture signal, regulate formula according to scope temperature control under it and carry out adjustment, if there is not new humidity newly to go into input then according to the running temperature operation after regulating.
11. the control method of air-conditioner sleep mode as claimed in claim 10 is characterized in that, this method also comprises:
Set humidity acquiescence minimum and peak, when the humidity value that reads is then opened humidifier until reaching peak less than minimum.
12. the control method of air-conditioner sleep mode as claimed in claim 10 is characterized in that, this method also comprises:
CO is set 2Sensor, and CO is set 2Content default maximum and minimum of a value read CO 2The signal value of sensor is when the value that reads is just moved ventilatory until reaching minimum of a value greater than default maximum.
13. the control method of air-conditioner sleep mode as claimed in claim 10, it is characterized in that, under the air-conditioning heating mode, divide a1, b1, four humiture control scopes of c1, d1 according to the humiture curve, and formulate each scope temperature control and regulate formula, a1 scope: T 0=T+1, b1 scope: T 0=T, c1 scope: T 0=T-1, d1 scope: T 0=T-2, wherein T is the current environmental temperature value, T 0Be the set temperature value behind the temperature adjusting.
14. the control method of air-conditioner sleep mode as claimed in claim 10, it is characterized in that, under the air conditioner refrigerating pattern, divide a2, b2, c2, d2, five humiture control scopes of e2 according to the humiture curve, and formulate each scope temperature control and regulate formula, a2 scope: T 0=T+2, b2 scope: T 0=T+1, c2 scope: T 0=T, d2 scope: T 0=T-1, e2 scope: T 0=T-2, wherein T is the current environmental temperature value, T 0Be the set temperature value behind the temperature adjusting.
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