CN102840645A - Air conditioner control system - Google Patents
Air conditioner control system Download PDFInfo
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- CN102840645A CN102840645A CN2012101992344A CN201210199234A CN102840645A CN 102840645 A CN102840645 A CN 102840645A CN 2012101992344 A CN2012101992344 A CN 2012101992344A CN 201210199234 A CN201210199234 A CN 201210199234A CN 102840645 A CN102840645 A CN 102840645A
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Abstract
The invention discloses an air conditioner control system. The air conditioner control system (1) controls a reset temperature T of an air conditioner (10) in a bedroom when going to roost. The air conditioner control system (1) comprises a storage unit (36), an input unit (37) and an executive unit (47), wherein various operation modes with different time variations of the reset temperature T stored in the storage unit (36), and the operation mode of each day is selected from the operation modes of the storage unit (36) by the user through the input unit (37), and input into the input unit (37), and finally the operation mode input into the input unit (37) is executed by the executive unit (47). According to the invention, it is only necessary to select different operation modes according to the daily life rhythm by the user, and the time variation of the reset temperature T is changed.
Description
Technical field
The present invention relates to a kind of air-conditioner control system of temperature in the bedroom being controlled at h.d., particularly relate to the technology of a kind of user's of alleviating setting burden.
Background technology
Up to now, the air-conditioner control system of at h.d. the temperature in the bedroom being controlled is known by everybody.For example, this air-conditioner control system is disclosed in patent documentation 1.This air-conditioner control system comprises body movement test section and sleeping judging part, and this body movement test section detects the user's who go to bed body movement, and whether this sleeping judging part has fallen asleep to the user according to the detected value of body movement test section is made judgement.In air-conditioner control system, carrying out following temperature control, that is: is after the user has fallen asleep in sleeping judgement section judges, according to the detected value increase and decrease design temperature of body movement test section, thus promotion user's sleep.
Patent documentation 1: a day disclosure special permission communique spy opens the 2010-85076 communique
Summary of the invention
The technical problem that-invention will solve-
If user's rhythm of life is because former thereby variations such as the night shift of working day and holiday or work and mornig shifts, will change the length of one's sleep or the moment of getting up etc.Therefore, for the temperature control of the sleep that promotes the user with high accuracy, the time that need change design temperature according to the variation of rhythm of life changes.
Yet according to the air-conditioner control system in the patent documentation 1, the operation mode that is used for promoting the person to go to bed to sleep has only a kind of.Therefore, when rhythm of life changed, the user must change the setting content of this operation mode, and the time that changes design temperature changes, and this is very bothersome as far as the user.
The present invention accomplishes just in view of the above problems.Its purpose is: let the user alleviate for the setting burden that the variation according to rhythm of life changes the time variation of design temperature.
-in order to the technical scheme of technical solution problem-
The invention of first aspect is being prerequisite at h.d. to the air-conditioner control system that the design temperature T of the air conditioner in the bedroom controls.This air-conditioner control system comprises storage part, input part and execution portion; The time that stores design temperature T at this storage part changes different multiple operation modes; The user selects the operation mode of every day from the operation mode of storage part through this input part; And the operation mode of selecting inputed to this input part, this execution portion carries out the said operation mode that has inputed to input part.
According to the invention of above-mentioned first aspect, the time that stores design temperature T at storage part changes different multiple operation modes, and the user selects the operation mode of every day from the operation mode of this storage part, and the operation mode of selecting is inputed to input part.Therefore, as long as the user selects the time variation that different operation modes just can change design temperature T.The user can select many days operation mode simultaneously.
The invention of second aspect is in the invention of said first aspect, in multiple operation mode, is set with the mutually different predetermined instant ta that gets up, and said design temperature T rose before each predetermined instant ta that gets up.
According to the invention of above-mentioned second aspect, in multiple operation mode, be set with the mutually different predetermined instant ta that gets up.Therefore, when the user thought that predetermined instant ta is got up in change, the user selected other operation mode, and the operation mode that this is selected is inputed to input part.If execution portion carries out this operation mode, design temperature T just rises according to the predetermined instant ta that gets up after changing.
The invention of the third aspect; Be in the invention of said first aspect, multiple operation mode has first operation mode and second operation mode, in this first operation mode; Be set with the predetermined instant ta that gets up; Said design temperature T rose before this predetermined instant ta that gets up, and in this second operation mode, did not set the predetermined instant ta that gets up.
According to the invention of the above-mentioned third aspect, be set with first operation mode and second operation mode as operation mode, in this first operation mode, be set with the predetermined instant ta that gets up, in this second operation mode, do not set the predetermined instant ta that gets up.If execution portion carries out first operation mode, design temperature T will rise before the predetermined instant ta that gets up.On the other hand, if execution portion carries out second operation mode, design temperature T just can not rise as first operation mode.Therefore, if the user hopes before getting up, to make design temperature T to rise, just be set at first operation mode; If the user hopes before getting up, not make design temperature T to rise, just be set at second operation mode.
The invention of fourth aspect; Be in the invention of said first aspect; At input part; The user selects working day with using operation mode and holiday operation mode from the operation mode of storage part respectively simultaneously, and with the working day of selecting with operation mode and holiday inputing to this input part respectively simultaneously with operation mode.
According to the invention of above-mentioned fourth aspect, the user selects working day with using operation mode and holiday operation mode respectively, is directed against the daily operation mode of input service simultaneously on working day thus, and uses operation mode holiday to importing simultaneously holiday.Therefore, the user if through input part select working day with operation mode and holiday with operation mode, no longer need select the operation mode of every day respectively.
The effect of-invention-
According to the present invention, the time that stores design temperature T at storage part changes different multiple operation modes, and the user selects the operation mode of every day from the operation mode of this storage part, and the operation mode of selecting is inputed to input part.In such event, the user is as long as select different operation modes according to the rhythm of life of every day, and the time that then can change design temperature T changes.Therefore, compared with prior art can further the user be changed the setting operation simplification of the time variation of design temperature T.The user can select many days operation mode and the operation mode of selecting is inputed to input part through input part simultaneously.Therefore, if the user imports the for example operation mode in a month simultaneously, the time that just no longer needs as prior art, when rhythm of life changes, all to change design temperature T changes.As stated, can let user's setting burden alleviate.
According to the invention of second aspect, in multiple operation mode, be set with the mutually different predetermined instant ta that gets up.Therefore, even user's the predetermined instant ta that gets up changes,, just can design temperature T be risen as long as set and carry out other operation mode.Therefore, follow the rising of design temperature T, the user's that promotion is gone to bed body temperature rises, and can let the user regain consciousness pleasantly.
According to the invention of the third aspect, be set with first operation mode and second operation mode as operation mode, in first operation mode, be set with the predetermined instant ta that gets up, in second operation mode, do not set the predetermined instant ta that gets up.If carry out first operation mode, design temperature T just rose before the predetermined instant ta that gets up, thereby promoted the body temperature of user before getting up to rise, and the user can regain consciousness pleasantly.On the other hand, if carry out second operation mode, design temperature T just can not rise, thereby continues the state of promotion user's sleep, and the user can sleep comfily.Therefore, the user can work as and hopes to select first operation mode when constantly regaining consciousness getting up pleasantly, and pays no attention to getting up constantly and select second operation mode comfily in bed when hoping.
According to the invention of fourth aspect, the user selects working day with using operation mode and holiday operation mode respectively simultaneously, and with the working day of selecting with operation mode and holiday inputing to input part respectively simultaneously with operation mode.In such event, the user just can set the operation mode of every day as long as select working day with using operation mode and holiday operation mode.Therefore, the user no longer need select the operation mode of every day respectively, can further let user's setting burden alleviate.
Description of drawings
Fig. 1 is the stereogram of the related air-conditioner control system of this embodiment.
Fig. 2 is the vertical view of the related main unit of this embodiment.
Fig. 3 is a block diagram, and the structure of the related air-conditioner control system of this embodiment is shown.
Fig. 4 (a)~Fig. 4 (d) is the figure of the control situation of the air-conditioner control system that is used for explaining that this embodiment is related, and Fig. 4 (a) illustrates the situation of change of a reference value T1 when carrying out the control of " V " font; Fig. 4 (b) illustrates the ultradian rhythm cycle; Fig. 4 (c) illustrates the situation of change that increases and decreases the variable value T2 in when control according to ultradian rhythm; Fig. 4 (d) illustrates the situation of change of the design temperature T that sends to air conditioner.
Fig. 5 is a flow chart, and the control action of the related air-conditioner control system of this embodiment is shown.
-symbol description-
The 1-air-conditioner control system; The 5-bedroom; The 10-air conditioner; The 36-storage part; The 37-input part; 47-execution portion (air-conditioning control part).
The specific embodiment
Below, with reference to the accompanying drawing explanation detailed in addition to embodiment of the present invention.Should explain that following embodiment is preferred in essence example, not have intention that the scope of the present invention, application of the present invention or its purposes is limited.
1 pair related of air-conditioner control system of embodiment of the present invention is arranged on the air-conditioning ability of the air conditioner 10 in the bedroom 5 and controls.
As shown in Figure 1, said air conditioner 10 is made up of for example wall-hanging air conditioning apparatus.Air conditioner 10 comprises cold-producing medium circulation and carries out the refrigerant loop of kind of refrigeration cycle, and supply has utilized refrigerant cools or the air of heating in the heat exchanger (omit and illustrate) to bedroom 5 in.That is to say that air conditioner 10 constitutes: at cooling operation with heat between the running and switch, carry out cooling operation or heat running.
Air-conditioner control system 1 comprises pressure-sensitive pipe 20 and main unit 30.
Pressure-sensitive pipe 20 is formed than these tube body 21 slightly little tube connectors 22 connections by tube body 21 and diameter.Tube body 21 is one of which end sealing and other end opening, the pipe that is elongated shape.Tube body 21 is arranged on the bedding 6 in bedroom 5.Tube connector 22 is both ends open and the pipe that is elongated shape.One end of tube connector 22 is connected with the peristome 23 of tube body 21, and the other end inserts in the main unit 30.Pressure-sensitive pipe 20 constitutes in it and changes according to person to go to bed's body movement at all.
As shown in Figure 2, main unit 30 comprises housing 31, insertion section 32, pressure acceptance division 33, configuration part 35 and control part 40.
The time that stores design temperature T at storage part 36 changes different multiple operation modes.In this embodiment, storage part 36 store working day with operation mode (below, be called the pattern on working day) and holiday with operation mode (below, be called pattern holiday).Working day pattern and holiday pattern be set at: design temperature T is carried out " V " font control, and design temperature T is increased and decreased control according to ultradian rhythm (ultradian rhythm).Are set with pattern and holiday the predetermined instant ta that gets up on weekdays in the pattern.Holiday, the predetermined instant ta2 that gets up of pattern was set at getting up the late moment of predetermined instant ta1 than the pattern on working day.
Input part 37 constitutes: the user passes through the operation mode that this input part 37 is selected every day, and the operation mode of selecting is inputed to this input part 37.The operation mode of every day is selected from the multiple operation mode that is stored in storage part 36.In this embodiment, to selecting the pattern on working day each working day simultaneously, to selecting pattern holiday each holiday simultaneously.Input part 37, the command signal of the operation mode of when the running of every day begins, having imported to these control part 40 execution of control part 40 output commands.
-control part-
As shown in Figure 2, control part 40 is built in the main unit 30.As shown in Figure 3, this control part 40 comprises signal processing part 41, heart rate detection portion 42, judging part 43, periodic component extracting part 46 and air-conditioning control part 47.
Heart rate detection portion 42 constitutes: according to the body movement calculated signals heart rate of having exported from signal processing part 41.Particularly, heart rate detection portion 42 usefulness heart rate decimation filters extract the signal of frequency band of heartbeat as actual measured value from the body movement signal, calculate the mean value (heart rate mean value) of the heart rate of each minute according to this actual measured value.Then, calculate the value from heart rate mean value, deduct the unsteady noise signal that produces of pulse when standing up etc., with the value that calculates as heart rate.
Whether judging part 43 constitutes: according to from the body movement signal of signal processing part 41 output to the person to go to bed in bed and whether the person to go to bed is sleeping makes judgement.Judging part 43 comprises judging part 44 and sleeping judging part 45 in bed.
In bed judging part 44 judge persons to go to bed on the bedding 6 still not on bedding 6.This judgement of being done of judging part 44 in bed is through making comparing from the size of the body movement signal of signal processing part 41 outputs and predefined judgment threshold (judgment threshold in bed).Particularly, when body movement signal during less than judgment threshold in bed, judging part 44 is judged as the person to go to bed and does not produce body movement in bed, thereby is judged as in this case " not in bed ".On the other hand, when the body movement signal greater than the state continuance of judgment threshold in bed stipulated time when above, judging part 44 is judged as the person to go to bed and is producing body movement in bed, thereby is judged as in this case " in bed ".
Periodic component extracting part 46, with zero-phase filtering device detected signal in decimation periods property ground from the heart rate that has calculated by heart rate detection portion 42, with the signal of this extraction as corresponding to the periodic component of ultradian rhythm (below, be called the ultradian rhythm cycle.)。
Air-conditioning control part 47 calculates the design temperature T that sends with the form of signal to air conditioner 10 according to carrying out operation mode from the command signal of input part 37 outputs, and this air-conditioning control part 47 constitutes execution portion involved in the present invention.Design temperature T calculates through stack variable value T2 on the basis of a reference value T1.Air-conditioning control part 47 comprises basic controlling portion 48, rhythm and pace of moving things operation control section 49 and operational part 50.
A reference value T1 calculates in basic controlling portion 48.Shown in Fig. 4 (a); For example on weekdays in pattern and the holiday pattern; A reference value T1 drops to when being judged as " falling asleep " always to be become till the lower limit temperature Tb; After dropping to lower limit temperature Tb, keep lower limit temperature Tb, again from compared with bed predetermined instant ta early the moment of stipulated time begin to rise, predetermined instant ta becomes target temperature Ta getting up.As stated, when execution work day during pattern with carry out holiday during pattern, a reference value T1 is carried out the control of " V " font.
Rhythm and pace of moving things operation control section 49 is calculated variable value T2 (basal temperature Tbase+ Δ t) according to the ultradian rhythm cycle (Fig. 4 (b)).Particularly, the differential value in the ultradian rhythm cycle that rhythm and pace of moving things operation control section 49 computing cycle composition extracting part 46 have extracted makes variable value T2 increase when this differential value that calculates becomes maximum, and variable value T2 is reduced.Shown in Fig. 4 (c), in this embodiment, when the slope of the positive change in ultradian rhythm cycle became maximum, rhythm and pace of moving things operation control section 49 was carried out Δ t=1 ℃ setting, made variable value T2 increase by 1 ℃.That is to say that variable value T2 is increased to the value higher 1 ℃ than basal temperature Tbase.On the other hand, when the differential value in ultradian rhythm cycle became minimum, rhythm and pace of moving things operation control section 49 was carried out Δ t=0 ℃ setting, made variable value T2 become basal temperature Tbase itself.That is to say that variable value T2 becomes the value of low 1 ℃ of variable value T2 when becoming maximum than above-mentioned differential value.At this, basal temperature Tbase is set at for example lower limit temperature Tb.
Operational part 50 calculates the design temperature T that sends to air conditioner 10 with the form of signal.Shown in Fig. 4 (d), the variable value T2 of stack rhythm and pace of moving things operation control section 49 on the basis of a reference value T1 of basic controlling portion 48, thus calculate design temperature T.
The action of-air conditioner and air-conditioner control system-
At first, before the running of beginning air conditioner 10, user operation and carry out the setting of execution day of setting and the operation mode of operation mode.
The setting of operation mode is carried out through storage part 36.In this embodiment, as operation mode set working day pattern and holiday pattern.When setting various operation mode, parameters such as the input target temperature Ta or the predetermined instant ta that gets up.
The setting of the execution day of operation mode is carried out through input part 37.The execution day of operation mode is from the operation mode of storage part 36, to select and import the operation mode of every day and set through the user.In this embodiment, to setting the pattern on working day each working day simultaneously, to setting pattern holiday each holiday simultaneously.
Then, the user selects " cooling operation " or " heating running " before going to bed, the running of beginning air conditioner 10.Carry out control action according to flow chart shown in Figure 5 in such event.
In step ST1, from input part 37 output instruction signals.The command signal of having exported inputs to air-conditioning control part 47.At air-conditioning control part 47, carry out operation mode according to the command signal of having imported.
In step ST2, detect the person to go to bed's on the bedding 6 body movement by pressure-sensitive pipe 20 and pressure acceptance division 33.Detected body movement signal is modulated into the signal of allocated frequency band at signal processing part 41, is outputed to heart rate detection portion 42 and judging part 43 again.
In heart rate detection portion 42,, from this heart rate, extract the ultradian rhythm cycle in periodic component extracting part 46 according to body movement calculated signals heart rate.
In step ST3,44 couples of persons to go to bed of judging part still do not make judgement in bed in bed in bed.If judging part 44 is judged as " in bed " in bed, just shift to step ST4.
In step ST4, whether sleeping 45 couples of persons to go to bed of judging part have fallen asleep is made judgement.If sleeping judging part 45 is judged as " sleeping ", just shift to step ST5.
In step ST5, if sleeping judging part 45 is judged as " sleeping ", just the various piece 48,49,50 at air-conditioning control part 47 begins a reference value T1, variable value T2 and design temperature T are controlled.
In basic controlling portion 48, a reference value T1 is carried out the control of " V " font, that kind increase and decrease of a reference value T1 shown in Fig. 4 (a).
In rhythm and pace of moving things operation control section 49, variable value T2 is increased and decreased control according to the ultradian rhythm cycle.Particularly, the differential value in the ultradian rhythm cycle that computing cycle composition extracting part 46 has extracted (with reference to Fig. 4 (b)), whether this differential value that detection computations goes out is maximum value or minimum value.If detecting the differential value in ultradian rhythm cycle is maximum (Xt of Fig. 4 (b)), rhythm and pace of moving things operation control section 49 just is set at 1 ℃ with Δ t.In such event, shown in Fig. 4 (c), the variable value T2 of air conditioner 10 sets the value higher 1 ℃ than basal temperature Tbase for.On the other hand, if detecting the differential value in ultradian rhythm cycle is minimum (Yt of Fig. 4 (b)), rhythm and pace of moving things operation control section 49 just is set at 0 ℃ with Δ t.In such event, the variable value T2 of air conditioner 10 becomes the value that equates with basal temperature Tbase.Therefore, variable value T2 increases when the differential value in ultradian rhythm cycle becomes maximum, when differential value becomes minimum, reduces afterwards, and variable value T2 repeats once above-mentioned increase and decrease in each cycle of ultradian rhythm.
At operational part 50, the variable value T2 of stack rhythm and pace of moving things operation control section 49 calculates design temperature T, shown in Fig. 4 (d) on the basis of a reference value T1 of basic controlling portion 48.This design temperature T exports to air conditioner 10 with the form of signal.Then, the air-conditioning ability of air conditioner 10 is controlled, to let temperature in the bedroom 5 near design temperature T.As stated, if the temperature in the bedroom 5 are carried out the control of " V " font and carried out ultradian rhythm control, the user's who just promotes to go to bed body temperature rises and body temperature decline.Therefore, the user who go to bed can not receive bigger burden on health, can sleep soundly.
In step ST6, the air-conditioning control part 47 predetermined instant ta that judged whether to get up.If air-conditioning control part 47 has been judged as the predetermined instant ta that gets up, just shift to step ST7, air conditioner 10 shuts down.
In this embodiment, storage part 36 as operation mode store working day pattern and holiday pattern.At input part 37, to setting the pattern on working day each working day, and to setting pattern holiday each holiday.Therefore, on weekdays during in, let the command signal of 47 execution work day of air-conditioning control part pattern from input part 37 output; Execution work day pattern; And just let air-conditioning control part 47 carry out the command signal of pattern holiday from input part 37 outputs one to holiday, carries out pattern holiday.
If execution work day pattern with pattern holiday, a reference value T1 just receives " V " font control, thereby design temperature T rising before the predetermined instant ta that gets up.Therefore, promote the body temperature of user before getting up to rise, can let the user almost not have body burden ground to regain consciousness.
The effect of-embodiment-
According to this embodiment, the time that stores design temperature T at storage part 36 changes different multiple operation modes, and the user can select the operation mode of every day from the operation mode of this storage part 36, and the operation mode of selecting is inputed to input part 37.In such event, the user is as long as select different operation modes according to the rhythm of life of every day, and the time that then can change design temperature T changes.Therefore, compared with prior art can further the user be changed the setting operation simplification of the time variation of design temperature T.The user can select many days operation mode simultaneously through input part 37, and the operation mode of selecting is inputed to this input part 37 simultaneously.Therefore, if the user imports the for example operation mode in a month simultaneously, the time that just no longer needs as prior art, when rhythm of life changes, all to change design temperature T changes.As stated, can let user's setting burden alleviate.
According to this embodiment, at input part 37, to selecting the pattern on working day each working day simultaneously, and to selecting pattern holiday each holiday simultaneously.In such event, if the user select working day pattern and holiday pattern, just can be set for quite a few days operation mode, can further let user's setting burden alleviate.
According to this embodiment, are set with pattern and holiday the mutually different predetermined instant ta that gets up on weekdays in the pattern.Therefore, can rise design temperature T working day according to the workaday predetermined instant ta1 that gets up, and can make design temperature T rising holiday according to the predetermined instant ta2 that gets up than the workaday predetermined instant ta1 late holiday of getting up.Therefore, the user can regain consciousness according to workaday rhythm of life working day pleasantly, and can regain consciousness holiday according to the rhythm of life of holiday pleasantly.
< other embodiment >
Above-mentioned embodiment also can constitute following structure.
In the above-described embodiment, are set with pattern and holiday the mutually different predetermined instant ta that gets up on weekdays in the pattern.But, be not limited to this.Also can be such, that is: for example be set with the predetermined instant ta1 that gets up in the pattern on weekdays, not set the predetermined instant ta that gets up in the pattern in holiday.First operation mode among pattern formation the present invention on this working day, second operation mode among this holiday of pattern formation the present invention.In this case, as if execution work day pattern, design temperature T just rose before the predetermined instant ta1 that gets up, thereby promoted the body temperature of user before getting up to rise, and the user can regain consciousness pleasantly.On the other hand, if carry out pattern holiday, design temperature T just can not rise, thereby continues the state of promotion user's sleep, and the user can sleep comfily.Therefore, the user can work as and hopes to select the pattern on working day when constantly regaining consciousness getting up pleasantly, and pays no attention to getting up constantly and select pattern holiday comfily in bed when hoping.
In the above-described embodiment, to selecting the pattern on working day each working day simultaneously, to selecting pattern holiday simultaneously each holiday, and import simultaneously that this selects working day pattern and holiday pattern.But, be not limited to this.Also can be such, that is: for example to selecting and import operation mode every day respectively.Can also be such, that is: what day in a week select and to import operation mode simultaneously to.
-industrial applicability-
In sum, the present invention as the air-conditioner control system of the temperature in the bedroom being controlled at h.d. of great use.
Claims (4)
1. air-conditioner control system, the design temperature T to the air conditioner (10) in bedroom (5) controls at h.d., it is characterized in that:
Said air-conditioner control system comprises:
Storage part (36), the time that stores said design temperature T at this storage part (36) changes different multiple operation modes,
Input part (37), the user passes through this input part (37) is selected every day from the operation mode of said storage part (36) operation mode, and the operation mode of selecting is inputed to this input part (37), and
Execution portion (47), it carries out the said operation mode that has inputed to said input part (37).
2. air-conditioner control system according to claim 1 is characterized in that:
In said multiple operation mode, be set with the mutually different predetermined instant ta that gets up, said design temperature T rose before each said predetermined instant ta that gets up.
3. air-conditioner control system according to claim 1 is characterized in that:
Said multiple operation mode has first operation mode and second operation mode; In this first operation mode, be set with the predetermined instant ta that gets up, said design temperature T rose before this predetermined instant ta that gets up; In this second operation mode, do not set the predetermined instant ta that gets up.
4. air-conditioner control system according to claim 1 is characterized in that:
In said input part (37); The user selects working day with using operation mode and holiday operation mode from the operation mode of said storage part (36) respectively simultaneously, and with the working day of selecting with operation mode and holiday inputing to this input part (37) respectively simultaneously with operation mode.
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JP2011139218A JP2013007507A (en) | 2011-06-23 | 2011-06-23 | Air conditioning control system |
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