CN103994551A - Energy management method and system - Google Patents
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- CN103994551A CN103994551A CN201410231207.XA CN201410231207A CN103994551A CN 103994551 A CN103994551 A CN 103994551A CN 201410231207 A CN201410231207 A CN 201410231207A CN 103994551 A CN103994551 A CN 103994551A
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Abstract
The invention discloses an energy management method and system. The energy management method comprises the following steps that firstly, current environment parameters are collected and at least comprise the current indoor temperature value T1, and an adjustment parameter U (T1) of the temperature set value of an air conditioner is inquired in a historical database when the historical indoor temperature value is equal to the current indoor temperature value T1; secondly, the temperature set value of the air conditioner is updated according to the current outdoor temperature value W, the current outdoor relative humidity value H, the current indoor relative humidity value F and the adjustment parameter U (T1). The energy management method and system have the advantages of saving energy and improving the user experience.
Description
Technical field
The present invention relates to electric equipment control field, be specifically related to a kind of energy management method and system.
Background technology
Energy management system comprises the control system to ambient parameters such as indoor temperature, humidity, brightness, gas concentration lwevels.Wherein, traditional air-conditioner temperature is controlled with simple Temperature Setting and is manually controlled and carry out, and such as Temperature Setting is 24 degrees Celsius, when indoor temperature is greater than 24 degrees Celsius of space-times, tunes to open and opens.Due to the perception of human body for temperature, can be along with different seasons, different weather conditions, and the change of other factors and changing.And human body is often inaccurate for the judgement of temperature.So, manually control simply desired temperature and tend to bring discomfort to people, also waste energy.For example, in full summer season, when people enters behind a room, this room is very sultry owing to not opening before air-conditioning, and user is very low for fast-refrigerating tends to air-conditioner temperature to be set to, such as 22 degrees Celsius.In air-conditioning, after unlatching a period of time, user does not just feel well, and temperature can be recalled to normal value.Some users, because do not want to take the trouble, just allow air-conditioning remain on the setting value of 22 degrees Celsius, do not remove to recall to normal value.Both of these case all can cause user's discomfort and the waste of the energy.
Therefore, need a kind of energy management method that can automatically set value to meet consumers' demand according to user's daily behavior custom adjustment air-conditioner temperature badly.
Summary of the invention
The technical problem to be solved in the present invention is, the above-mentioned defect for prior art, provides a kind of energy management method and system.
The technical solution adopted for the present invention to solve the technical problems is: construct a kind of energy management method, comprise the following steps:
S1: gather current environment parameter, described current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base;
S2: the desired temperature that upgrades described air-conditioning according to described current environment parameter and described adjustment parameter U (T1).
In energy management method provided by the invention, described current environment parameter also comprises current outdoor temperature value W, current indoor temperature value T1, current outside relative humidity value H and current indoor relative humidity value F; Desired temperature T2 after renewal and described current outdoor temperature value W, described current outside relative humidity value H, described current indoor relative humidity value F and described adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, and a, b, c, d are default coefficient; U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of described air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of described air-conditioning.
In energy management method provided by the invention, also comprise step S0: according to the adjustment parameter of the desired temperature of historical indoor temperature value and correspondence, set up historical data base.
In energy management method provided by the invention, also comprise step S3: receive user for adjusting the adjustment signal of the desired temperature of described air-conditioning, according to described adjustment signal, the desired temperature of described air-conditioning is adjusted, the indoor temperature value according to the adjustment situation of this desired temperature and while adjusting this desired temperature is upgraded described historical data base.
In energy management method provided by the invention, described step S1 comprises: interval scheduled time ground gathers current environment parameter, described current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base.
In energy management method provided by the invention, in described step S2, the value of a, b, c, d is respectively 0.5,0.2 ,-0.2 ,-0.5.
In energy management method provided by the invention, in described step S2, according to current season, determine the value of described default temperature value Ti, current season is while being summer, Ti=26; Current season is while being winter, Ti=18.
The present invention also provides a kind of energy management system, comprising:
For gathering the acquisition module of current environment parameter, described current environment parameter comprises current outdoor temperature value W, current indoor temperature value T1, current outside relative humidity value H and current indoor relative humidity value F;
Enquiry module for the adjustment parameter U (T1) of the desired temperature of the air-conditioning when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base inquiry;
For upgrade the control module of the desired temperature of air-conditioning according to described current outdoor temperature value W, described outside relative humidity value T1, indoor relative humidity value F and described adjustment parameter U (T1);
Desired temperature T2 after renewal and described current outdoor temperature value W, described current outside relative humidity value H, described current indoor relative humidity value F and described adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, a, b, c, d are default coefficient, U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of described air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of described air-conditioning.
In energy management system provided by the invention, go back packet memory, described memory is for storing the described historical data base of setting up according to the adjustment parameter of historical indoor temperature value and the desired temperature corresponding with described historical indoor temperature value.
In energy management system provided by the invention, also comprise:
For receive user for adjusting the receiver module of adjustment signal of the desired temperature of air-conditioning, described control module is also for adjusting the desired temperature of described air-conditioning according to described adjustment signal; And,
Indoor temperature value when being used for according to the adjustment situation of this desired temperature and adjusting this desired temperature is upgraded the more new module of described historical data base.
Implement energy management method of the present invention and system, there is following beneficial effect: due to the desired temperature that the present invention can upgrade air-conditioning automatically, therefore can save the energy and provide user to experience; Further, adjustment parameter U (T1) by the present invention's desired temperature of the air-conditioning when historical indoor temperature value is identical with current indoor temperature value T1 according to current indoor temperature value inquiry, and upgrade desired temperature according to current environment parameter and adjustment parameter U (T1), make desired temperature not only relevant with current environment of this air-conditioning, meet user's personal habits also personalizedly, therefore, can meet further the demand that user controls for air-conditioner temperature, have and improve the beneficial effect that user experiences.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:
Fig. 1 is the FB(flow block) of the energy management method in first embodiment of the invention;
Fig. 2 is the FB(flow block) of the energy management method in second embodiment of the invention;
Fig. 3 is the theory diagram of the energy management system in one embodiment of the present invention.
The specific embodiment
For technical characterictic of the present invention, object and effect being had more clearly, understand, now contrast accompanying drawing and describe the specific embodiment of the present invention in detail.
Fig. 1 shows the FB(flow block) of a kind of energy management method in first embodiment of the invention, comprises the following steps:
S1: gather current environment parameter, current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base;
S2: according to the desired temperature of current environment parameter and adjustment parameter U (T1) renewal air-conditioning.
The collection of ambient parameter can obtain by sensor and/or network inquiry.
Because the present invention can upgrade the desired temperature of air-conditioning automatically, so can save the energy and provide user to experience; Further, adjustment parameter U (T1) by the present invention's desired temperature of the air-conditioning when historical indoor temperature value is identical with current indoor temperature value T1 according to current indoor temperature value inquiry, and upgrade desired temperature according to current environment parameter and adjustment parameter U (T1), make desired temperature not only relevant with current environment of this air-conditioning, meet user's personal habits also personalizedly, therefore, can meet further the demand that user controls for air-conditioner temperature, have and improve the beneficial effect that user experiences.
Preferably, current environment parameter also comprises current outdoor temperature value W, current outside relative humidity value H and current indoor relative humidity value F, but is not limited to this.
In the step S1 of the present embodiment, outdoor temperature can be by detecting at outdoor temperature sensor, and outdoor temperature that also can be by internet checking locality is to obtain current outdoor temperature value W.The temperature sensor that current indoor temperature value T1 can carry by air-conditioning detects and obtains, and current indoor relative humidity value F and current outside relative humidity value H all can be detected and be obtained by corresponding humidity sensor.
In step S2, the desired temperature T2 after renewal and described current outdoor temperature value W, current outside relative humidity value H, current indoor relative humidity value F and adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, and a, b, c, d are default coefficient; The value of this, b, c, d can be empirical value or the value that draws through overtesting, also can also can be adjusted according to user's acquired behavior, and in the present embodiment, a, b, c, d are respectively 0.5,0.2 ,-0.2 ,-0.5, but is not limited to this.The value of default temperature value Ti is by determining current season, and current season is while being summer, Ti=26; Current season is while being winter, Ti=18.U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of air-conditioning.
When indoor temperature value is T1, user raises the desired temperature of air-conditioning to illustrate that user is cold while thinking that indoor temperature is T1, therefore upper temperature regulating.When indoor temperature value is T1, when user thinks that by the desired temperature downward explanation user of air-conditioning indoor temperature value is T1, user has felt heat.Therefore, user is weighed to conversion for the difference sensation of same indoor temperature, just can obtain a desired value of the operational motion that a user can make under this indoor temperature, and by this desired value in conjunction with current outdoor temperature value W, current outside relative humidity value H and current indoor relative humidity value F for user's impact, just can obtain the desired temperature that a most probable can be met consumers' demand.
In the present embodiment, the collection of deserving the ambient parameters such as the outer temperature value W of cup, current indoor temperature value T1, current outside relative humidity value H and current indoor relative humidity value F is the interval scheduled time, for example, not 15 minutes this scheduled time, every 15 minutes, air-conditioning collection is above-mentioned current environment parameter once, and the corresponding renewal of the desired temperature of air-conditioning once, this is conducive to indoor temperature to be controlled at the state that user expects most, can improve user and experience.
Fig. 2 shows the FB(flow block) of a kind of energy management method in second embodiment of the invention, and on the basis of the first embodiment, it comprises the following steps:
S0: set up historical data base according to the adjustment parameter of the desired temperature of historical indoor temperature value and correspondence.
S1: gather current environment parameter, current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base;
S2: according to the desired temperature of current environment parameter and adjustment parameter U (T1) renewal air-conditioning.
Below to step S0 explanation for example.
For example, before this time renewal of desired temperature operation, in historical data base: a certain historical indoor temperature is 10 degrees Celsius, at this temperature, the number of times that user raises the desired temperature of air-conditioning is 10 times, and the number of times that user lowers desired temperature is 15 times, so U1 (10)=10, U2 (10)=15, so adjustment parameter U (10)=U1 (the 10)-U2 (10)=-5 preserving in historical data base.The like set up the corresponding situation that all historical indoor temperatures and desired temperature are adjusted parameter.
Preferably, this energy management method also comprises and is positioned at step S0 step S3 below: receive user for adjusting the adjustment signal of the desired temperature of air-conditioning, according to this adjustment signal, the desired temperature of air-conditioning is adjusted, the indoor temperature value during according to the adjustment situation of this desired temperature and adjustment desired temperature is upgraded historical data base.For example, indoor temperature value before this time adjusting is 10, that is to say that indoor temperature is 10 degrees Celsius, user raises n degree continuously by desired temperature, because changing indoor temperature, air-conditioning needs the time, therefore, in the time of can being considered as indoor temperature and being 10 degrees Celsius, the number of times that desired temperature is raised has increased n time; That is to say, U (10)=-5 before historical data base upgrades, according to this adjustment situation, the value of U (10) is updated to n-5.
Adopt the mode of constantly updating historical data base to constantly update the constantly control method of fine setting air-conditioning according to the variation of user behavior custom, can, so that air-conditioning provides best temperature to user, have and improve the effect that user experiences.
Fig. 3 is the theory diagram of the energy management system in one embodiment of the present invention, and energy management system comprises:
For gathering the acquisition module 101 of current environment parameter, this ambient parameter comprises current outdoor temperature value W, current indoor temperature value T1, current outside relative humidity value H and current indoor relative humidity value F;
Enquiry module 102 for the adjustment parameter U (T1) of the desired temperature of the air-conditioning when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base inquiry;
For upgrade the control module 103 of the desired temperature of air-conditioning according to described current outdoor temperature value W, described outside relative humidity value T1, indoor relative humidity value F and described adjustment parameter U (T1);
Memory 104, memory 104 is for storing the historical data base of setting up according to the adjustment parameter of historical indoor temperature value and the desired temperature corresponding with historical indoor temperature value;
Wherein, the desired temperature T2 after renewal and described current outdoor temperature value W, described current outside relative humidity value H, described current indoor relative humidity value F and described adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, a, b, c, d are default coefficient, U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of described air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of described air-conditioning.
In the present embodiment, control module 103 can be controller independently, can be to be also integrated in the control system of air-conditioning.Acquisition module 101, enquiry module 102, memory 104 are connected with this control module 103 respectively, and enquiry module 102 is also connected with memory 104.
Acquisition module 101 comprises the first collecting unit, the second collecting unit, the 3rd collecting unit and the 4th collecting unit.Wherein, the first collecting unit is used for gathering current outdoor temperature value W, and it can be the temperature sensor being connected with control module 103, can be also by the network inquiry device of the local outdoor temperature of network inquiry.This second collecting unit is used for gathering current indoor temperature value T1, and it can be for being installed on temperature sensor indoor and that be connected with control module 103, certainly, and the temperature sensor that also can adopt air-conditioning itself to carry.The 3rd collecting unit is used for gathering current outside relative humidity value H, and it can, for being arranged on the outdoor humidity sensor being connected with this control module 103, can be also for inquiring about the network inquiry device of local outside humidity value.The 4th collecting unit is used for gathering current indoor relative humidity value F, and it can be to be installed on humidity sensor indoor and that be connected with control module 103, can be also the humidity sensor that air-conditioning itself carries.
Preferably, this energy management system can also comprise more new module 105 and receiver module 106.This more new module 105 be connected with control module 103 and memory 104 respectively.This receiver module 106 is connected with control module 103.Wherein, this receiver module 106 for receive user for adjusting the adjustment signal of the desired temperature of air-conditioning, control module is also for adjusting the desired temperature of air-conditioning according to this adjustment signal.This more new module 105 for the indoor temperature value according to the adjustment situation of this desired temperature and while adjusting this desired temperature, upgrade described historical data base.
Adopt the mode of constantly updating historical data base to constantly update the constantly control method of fine setting air-conditioning according to the variation of user behavior custom, can, so that air-conditioning provides best temperature to user, have and improve the effect that user experiences.
This energy management system system can also comprise a cloud server, this control module 103, more new module 105, memory 104, enquiry module 102 are and are integrated in this cloud server, can realize more building or room are carried out to energy conservation.
By reference to the accompanying drawings embodiments of the invention are described above; but the present invention is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment is only schematic; rather than restrictive; those of ordinary skill in the art is under enlightenment of the present invention; not departing from the scope situation that aim of the present invention and claim protect, also can make a lot of forms, within these all belong to protection of the present invention.
Claims (10)
1. an energy management method, is characterized in that, comprises the following steps:
S1: gather current environment parameter, described current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with described current indoor temperature value T1 in historical data base;
S2: the desired temperature that upgrades described air-conditioning according to described current environment parameter and described adjustment parameter U (T1).
2. energy management method according to claim 1, is characterized in that, described current environment parameter also comprises current outdoor temperature value W, current outside relative humidity value H and current indoor relative humidity value F; Desired temperature T2 after renewal and described current outdoor temperature value W, described current outside relative humidity value H, described current indoor relative humidity value F and described adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, and a, b, c, d are default coefficient; U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of described air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of described air-conditioning.
3. energy management method according to claim 2, is characterized in that, also comprises and is positioned at step S1 step S0 before: according to the adjustment parameter of the desired temperature of historical indoor temperature value and correspondence, set up historical data base.
4. energy management method according to claim 3, it is characterized in that, also comprise the step S3 being positioned at after described step S0: receive user for adjusting the adjustment signal of the desired temperature of described air-conditioning, according to described adjustment signal, the desired temperature of described air-conditioning is adjusted, the indoor temperature value according to the adjustment situation of this desired temperature and while adjusting this desired temperature is upgraded described historical data base.
5. energy management method according to claim 1, it is characterized in that, described step S1 comprises: interval scheduled time ground gathers current environment parameter, described current environment parameter at least comprises current indoor temperature value T1, the adjustment parameter U (T1) of the desired temperature of the air-conditioning of inquiry when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base.
6. energy management method according to claim 2, is characterized in that, in described step S2, the value of a, b, c, d is respectively 0.5,0.2 ,-0.2 ,-0.5.
7. energy management method according to claim 2, is characterized in that, in described step S2, determines the value of described default temperature value Ti according to current season, and current season is while being summer, Ti=26; Current season is while being winter, Ti=18.
8. an energy management system, is characterized in that, comprising:
For gathering the acquisition module (101) of current environment parameter, described current environment parameter comprises current outdoor temperature value W, current indoor temperature value T1, current outside relative humidity value H and current indoor relative humidity value F;
Enquiry module (102) for the adjustment parameter U (T1) of the desired temperature of the air-conditioning when historical indoor temperature value is identical with current indoor temperature value T1 in historical data base inquiry;
For upgrade the control module (103) of the desired temperature of air-conditioning according to described current outdoor temperature value W, described outside relative humidity value T1, indoor relative humidity value F and described adjustment parameter U (T1);
Desired temperature T2 after renewal and described current outdoor temperature value W, described current outside relative humidity value H, described current indoor relative humidity value F and described adjustment parameter U (T1) meet following relation:
T2=Ti+a*U (T1)+b*W+c*H+d*F, and, U (T1)=U1 (T1)-U2 (T1); Wherein, Ti is default temperature value, a, b, c, d are default coefficient, U1 (T1) for when indoor temperature value is T1 by the number of times raising of the desired temperature of described air-conditioning, U2 (T1) is when indoor temperature is T1 the number of times of lowering of the desired temperature of described air-conditioning.
9. energy management system according to claim 8, it is characterized in that, packet memory (104) also, described memory (104) is for storing the described historical data base of setting up according to the adjustment parameter of historical indoor temperature value and the desired temperature corresponding with described historical indoor temperature value.
10. energy management system according to claim 9, is characterized in that, also comprises:
For receive user for adjusting the receiver module (106) of adjustment signal of the desired temperature of air-conditioning, described control module (103) is also for adjusting the desired temperature of described air-conditioning according to described adjustment signal; And,
Indoor temperature value when being used for according to the adjustment situation of this desired temperature and adjusting this desired temperature is upgraded the more new module (105) of described historical data base.
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