CN102486644A - Intelligent building energy-saving system, energy-saving method and controller - Google Patents

Abstract

The invention discloses a building energy-saving controller, a building energy-saving system and an energy-saving method. The energy-saving controller comprises an ambient status data collection module, a user managing module and a data processing and logic control module, wherein the ambient status data collection module is used for receiving ambient status parameters from a sensor; the user managing module is used for receiving user information from a card reader; and the data processing and logic control module is used for receiving the user information and the ambient status parameters, for acquiring an energy-saving strategy corresponding to the user information and for controlling an executor to adjust the ambient status according to the corresponding energy-saving strategy and the ambient status parameters. The method adopts different processing flows according to different energy-saving schemes implemented for different users, and the requirements on the real-time property of the control effect and the precision of the control data can be comprehensively satisfied. The intelligent building energy-saving controller has a perception capacity for the user ambient demand information, can complete the energy-saving control flow of different user classes, has a user managing function, and can facilitate the humanization of the energy-saving control.

Description

Intelligent building energy conserving system, power-economizing method and controller

Technical field

The present invention relates to intelligent building control field, relate in particular to a kind of intelligent building energy conserving system, power-economizing method and intelligent building energy-saving controller.

Background technology

In China, building energy consumption is occupying more than 27% of total energy consumption, but also increases in the speed with annual 1 percentage point, and building energy conservation has caused the attention of all circles.Building energy conservation is exactly rationally to use the energy guaranteeing and improving under the condition of building comfortableness, improves constantly efficiency of energy utilization.

Current building energy conservation system often combines with automatic building control system, realizes the Energy Saving Control to the electricity consumption facility through intelligent perception indoor environment situation and personnel's situation.Adopt distributed set up to be equipped with control module because existing automatic building control system more, often be difficult to accomplish total system unified management and control.Therefore, more and more users turned to by with the Industry Control be the basis centralized control mode on.But existing centralized control method all is all users to be carried out the administration of energy conservation of clean cut formula, and control method is too single, lacks corresponding dirigibility, also not enough hommization.

Summary of the invention

The technical matters that the present invention will solve provides a kind of intelligent building energy-saving controller, has intellectuality and hommization.

According to an aspect of the present invention, a kind of building energy conservation controller is provided, comprises:

The ambient condition data acquisition module is used for from sensor reception environment state parameter, sends the ambient condition parameter;

User management module is used for receiving user profile from card reader, sends user profile;

Data processing and Logic control module; Be used to receive from the user profile of user management module with from the ambient condition parameter of ambient condition data acquisition module; Obtain the Energy Saving Strategy corresponding, the Energy Saving Strategy combining environmental state parameter control actuator adjustment ambient condition corresponding according to the user with user profile.

According to an embodiment of building energy conservation controller of the present invention, data processing and Logic control module comprise:

Common Energy Saving Strategy storage unit is used to store the Energy Saving Strategy of domestic consumer;

Personalized tactful acquiring unit is used to receive user profile, obtains the personalized Energy Saving Strategy corresponding with user profile according to user profile from management work station;

The user data processing unit is used to receive user profile, and judges is domestic consumer or personalized user; When the user is domestic consumer, obtain domestic consumer's Energy Saving Strategy from the Energy Saving Strategy storage unit, send to logic control element; When the user is personalized user, obtain the personalized Energy Saving Strategy corresponding through the tactful acquiring unit of personalization with user profile, send to logic control element;

Logic control element is used to receive the ambient condition parameter from sensor, according to domestic consumer's Energy Saving Strategy that receives or personalized Energy Saving Strategy control actuator adjustment ambient condition.

According to an embodiment of building energy conservation controller of the present invention, write the Energy Saving Strategy of domestic consumer to the Energy Saving Strategy storage unit through management work station.

According to an embodiment of building energy conservation controller of the present invention, sensor comprises temperature sensor, humidity sensor, illuminance transducer; Or card reader is contact or non-contact inductive card reader.

Building energy conservation controller provided by the invention; Obtain the ambient condition parameter through sensor, obtain user profile, obtain corresponding Energy Saving Strategy according to user profile through card reader; Thereby through controller ambient condition is adjusted, possessed intellectuality and hommization.

According to a further aspect in the invention, a kind of building energy conservation system is provided also, comprises above-mentioned building energy conservation controller; And:

Data processing server is used to store user's personalized Energy Saving Strategy;

Management work station is used to receive the user profile from the building energy conservation controller, obtains user's personalized Energy Saving Strategy according to user profile from data processing server, sends to the building energy conservation controller.

An embodiment according to building energy conservation of the present invention system also comprises:

Card reader is used for reading the user profile of subscriber card, sends to the building energy conservation controller;

Sensor is used for the monitoring of environmental state parameter;

Actuator is used to receive the steering order from the building energy conservation controller, adjusts equipment according to the steering order state that controls environment.

An embodiment according to building energy conservation of the present invention system also comprises:

Control terminal, being used for control terminal provides human-computer interaction interface, and the function of management building energy conservation system is provided to the user.

Another technical matters that the present invention will solve provides a kind of construction energy-saving method, has intellectuality and hommization.

According to an aspect of the present invention, a kind of construction energy-saving method is provided, comprises:

From sensor reception environment state parameter;

Receive user profile from card reader, obtain the Energy Saving Strategy corresponding with user profile;

The Energy Saving Strategy combining environmental state parameter control actuator adjustment ambient condition corresponding according to the user.

An embodiment according to construction energy-saving method of the present invention, obtain the Energy Saving Strategy corresponding with user profile and comprise: according to the user profile judges is domestic consumer or personalized user; When the user is domestic consumer, read domestic consumer's Energy Saving Strategy from the building energy conservation controller; When the user is personalized user, obtain the personalized Energy Saving Strategy corresponding with user profile through the management work station acquiring unit.

According to an embodiment of construction energy-saving method of the present invention, this method also comprises: write domestic consumer's Energy Saving Strategy through management work station to the building energy conservation controller.

Construction energy-saving method provided by the invention; Obtain the ambient condition parameter through sensor, obtain user profile, obtain corresponding Energy Saving Strategy according to user profile through card reader; Thereby through controller ambient condition is adjusted, possessed the advantage of intelligent and hommization.

Description of drawings

Fig. 1 illustrates the structural drawing of an embodiment of intelligent building energy conserving system of the present invention;

Fig. 2 illustrates the structural drawing of an embodiment of intelligent building energy-saving controller of the present invention;

Fig. 3 illustrates the structural drawing of another embodiment of intelligent building energy-saving controller of the present invention;

Fig. 4 illustrates the process flow diagram of an embodiment of intelligent building power-economizing method of the present invention;

Fig. 5 illustrates the process flow diagram of another embodiment of intelligent building power-economizing method of the present invention;

Fig. 6 illustrates the diagram of an application examples of intelligent building energy conserving system of the present invention and method;

Fig. 7 illustrates the diagram of the Another application example of intelligent building energy conserving system of the present invention and method.

Embodiment

With reference to the accompanying drawings the present invention is more comprehensively described, exemplary embodiment of the present invention wherein is described.

Fig. 1 illustrates the structural drawing of an embodiment of intelligent building energy conserving system of the present invention.As shown in Figure 1, at the various sensors 13 that are used for monitoring of environmental state parameter (temperature, humidity, illumination) of whole building interior administration, dispose user's contactless card card reader 12 in building and indoor porch.Intelligent building energy-saving controller 11 is connected through wired or wireless mode with each sensor 13, user's contactless card card reader 12 and actuator 14, and they are managed.Building energy conservation controller 11 is connected to management work station 15, carries out data interaction with it.Management work station 15 puts into data processing server 16 with relevant environment state and user's configuration data and manages.Control terminal 17 provides the function of management total system as human-computer interaction interface to the supvr.The intelligent building energy conserving system comprises energy-saving controller 11, management work station 15 and data processing server 16.Energy-saving controller 11 is from various sensors 13 (for example shown in Fig. 1, temperature sensor, humidity sensor and illuminance transducer etc.) reception environment state parameter; The user brushes subscriber card 19 on card reader 12; Intelligent building energy-saving controller 11 (for example receives user profile from card reader 12; ID), obtain the Energy Saving Strategy corresponding with user profile, the Energy Saving Strategy combining environmental state parameter control actuator 14 corresponding according to the user opens and closes or adjusts various device 18 (for example shown in Fig. 1; Heating and ventilating equipment, light fixture and air-conditioning equipment etc.), thus the adjustment ambient condition.Data processing server 16 storage users' personalized Energy Saving Strategy, for example, in the personalized Energy Saving Strategy corresponding stored of data processing server 16 with ID and user; Intelligent building energy-saving controller 11 sends to management station 15 with user profile; Management work station 15 is according to receiving the personalized Energy Saving Strategy of obtaining the user from the user profile of building energy conservation controller 11 receptions from data processing server 16; Send to building energy conservation controller 16; Energy-saving controller 11 is adjusted each equipment 18 according to ambient condition parameter and user's personalized Energy Saving Strategy control actuator 14.

The user carries user's contactless card, is used for the identification of user identity and user gradation.User's contactless card and card reader can adopt wireless short-distance identity recognizing technology (like the RFID technology), also can make common intellective IC card.Through ID, the user is divided into domestic consumer and personalized user, different user is started different Energy Saving Strategy.

In the foregoing description, obtain the ambient condition parameter, obtain user profile, obtain corresponding Energy Saving Strategy according to user profile, thereby ambient condition is adjusted, possess the advantage of intelligent and hommization through controller through card reader through sensor.

Fig. 2 illustrates the structural drawing of an embodiment of energy-saving controller of the present invention.As shown in Figure 2, energy-saving controller 200 comprises user management module 21, ambient condition data acquisition module 22 and data processing and Logic control module 23.Energy-saving controller 200 is accomplished the management to the subscriber card card reader through user management module 21 via card reader interface; Accomplish various management of sensors through ambient condition data acquisition module 22 via sensor interface; Detected data are reported to management work station through management system interface, through data processing and Logic control module 23 via of the control of actuator interface to actuator.Each module detailed functions introduction is following:

User management module 21 receives user profile from card reader, sends user profile to data processing and Logic control module 23.

Ambient condition data acquisition module 22 sends the ambient condition parameter to data processing and Logic control module 23 from sensor reception environment state parameter.For example, ambient condition data acquisition module 22 reports data processing and Logic control module 23 with certain cycle read sensor information.

Data processing and Logic control module 23 provide the function that reports sensor and subscriber card information to management work station, and accept steering logic or control strategy modification that management work station carries out it.Possess certain Based Intelligent Control ability, can carry out control in conjunction with subscriber card information and sensor information according to the strategy of setting to actuator.Data processing and Logic control module 23 receives from the user profile of user management module 21 with from the ambient condition parameter of ambient condition data acquisition module 22; Obtain the Energy Saving Strategy corresponding, the Energy Saving Strategy combining environmental state parameter control actuator adjustment ambient condition corresponding according to the user with user profile.

Fig. 3 illustrates the structural drawing of another embodiment of energy-saving controller of the present invention.Compare with Fig. 2, the data processing of Fig. 3 middle controller 300 and Logic control module 33 comprise Energy Saving Strategy storage unit 331, user data processing unit 332, personalized tactful acquiring unit 333 and logic control element 334.Wherein, the Energy Saving Strategy of Energy Saving Strategy storage unit 331 storage domestic consumers; Personalized tactful acquiring unit 333 is used to receive user profile, obtains the personalized Energy Saving Strategy corresponding with user profile according to user profile from management work station; User data processing unit 331 is used to receive user profile, and judges is domestic consumer or personalized user; When the user is domestic consumer, obtain domestic consumer's Energy Saving Strategy from Energy Saving Strategy storage unit 331, send to logic control element 334; When the user is personalized user, obtain the personalized Energy Saving Strategy corresponding through the tactful acquiring unit 331 of personalization with user profile, send to logic control element 334; The ambient condition parameter that logic control element 334 receives from sensor is according to domestic consumer's Energy Saving Strategy that receives or personalized Energy Saving Strategy control actuator adjustment ambient condition.

Data processing in the controller and Logic control module possess the Based Intelligent Control ability; For domestic consumer; Do not need directly to control actuator adjustment alternately, can improve the controller response speed, and make total system have better dirigibility with management work station; For personalized user, obtain the personalized Energy Saving Strategy corresponding through the tactful acquiring unit of personalization, thereby possess the advantage of intelligent and hommization with user profile.

In the embodiment of Fig. 2, Fig. 3, each device illustrates so that their function to be described with block diagram.These functional blocks can realize with hardware, software, firmware, middleware, microcode, hardware description voice or their combination in any.For instance, one or two functional blocks can utilize the code that operates on microprocessor, digital signal processor (DSP) or any other the suitable platform to realize.Code can be represented the combination in any of process, function, subroutine, program, routine, subroutine, module or instruction, data structure or program statement.Code can be arranged in computer-readable medium.Computer-readable medium can comprise one or more memory device; For example, comprise RAM storer, flash memories, ROM storer, eprom memory, eeprom memory, register, hard disk, portable hard drive, CD-ROM or other any type of storage mediums well known in the art.Computer-readable medium can also comprise the carrier wave of encoded data signal.

Alternatively; Perhaps in addition, one or two functional modules can utilize special IC (ASIC), controller, microcontroller, state machine, field programmable gate array (FPGA) or other PLDs, discrete gate or transistor logic, discrete hardware components or their combination in any to realize.

Those skilled in the art will recognize that hardware, firmware and software arrangements replaceability in these cases, and how to realize each application-specific ground function best.

Fig. 4 illustrates the process flow diagram of an embodiment of intelligent building power-economizing method of the present invention.

As shown in Figure 4, in step 402, from sensor reception environment state parameter.Sensor for example comprises temperature sensor, humidity sensor, illuminance transducer etc., respectively ambient condition parameters such as monitor temperature, humidity, illumination.

In step 404, receive user profile from card reader, obtain the Energy Saving Strategy corresponding with user profile.For example, can different users have different Energy Saving Strategy, perhaps different class of subscribers has different Energy Saving Strategy; According to the user profile judges is domestic consumer or personalized user; When the user is domestic consumer, obtain domestic consumer's Energy Saving Strategy from energy-saving controller; When the user is personalized user, obtain the personalized Energy Saving Strategy corresponding with user profile through management work station.

In step 406, the Energy Saving Strategy combining environmental state parameter control actuator adjustment ambient condition corresponding according to the user.Energy-saving controller is according to domestic consumer's Energy Saving Strategy or personalized Energy Saving Strategy combining environmental state parameter control actuator adjustment ambient condition.

In the foregoing description, obtain the ambient condition parameter, obtain user profile, obtain corresponding Energy Saving Strategy according to user profile, thereby ambient condition is adjusted, possess the advantage of intelligent and hommization through controller through card reader through sensor.

Fig. 5 illustrates the process flow diagram of another embodiment of intelligent building power-economizing method of the present invention.

As shown in Figure 5, in step 502, the user who carries subscriber card gets in the zone of having disposed this energy conserving system.

In step 504, card reader monitors subscriber card and reads user profile, is uploaded in the energy-saving controller.

In step 506, the user management module of energy-saving controller is tentatively judged, if user class is a domestic consumer, then continues execution in step 508; If the user is a personalized user, continue execution in step 510.

In step 508, the data processing of energy-saving controller and Logic control module continue execution in step 516 according to wherein presetting domestic consumer's Energy Saving Strategy.

In step 510, for personalized user, launch the primary demand facility, for example throw light on etc.

In step 512, energy-saving controller process management work station is to the corresponding user individual Energy Saving Strategy of data processing server request.

In step 514, the personalized Energy Saving Strategy that management work station returns the user to the data processing and the Logic control module of energy-saving controller.

In step 516, according to domestic consumer's Energy Saving Strategy or personalized Energy Saving Strategy adjustment environmental parameter, adjust environmental parameters such as ambient light illumination, temperature by actuator.

In the above-described embodiments, for domestic consumer, data processing and Logic control module directly according to wherein presetting domestic consumer's Energy Saving Strategy control actuator adjustment environmental parameter, can improve the controller response speed, make total system have better dirigibility; Obtain the personalized Energy Saving Strategy corresponding through actuator adjustment environmental parameter for personalized user, thereby possess the advantage of intelligent and hommization with user profile.

Intelligent building energy conserving system provided by the invention and method provide the intelligent building energy-saving controller that comprises user management, ambient condition data acquisition, data processing and logic control.In conjunction with the energy-efficient treatment flow process of dividing class of subscriber; The power-economizing method that is designed is the illumination of ability automatic open close, air-conditioning on the one hand; Realize energy-conservation automatic management; Can carry out the adjustment of corresponding Energy Saving Strategy according to the user gradation that is provided with in the subscriber card on the other hand, solve that existing energy-saving control method is single, the problem of not enough hommization.The The whole control system that is designed structural good, reliability is high, and possesses the characteristics of intelligent and hommization.

Fig. 6 illustrates the diagram of an application examples of intelligent building energy conserving system of the present invention and method.As shown in Figure 6, the domestic consumer of carrying subscriber card 19 gets into building or indoor.Card reader 12 monitors subscriber signal, and user profile is reported to controller 200.User management module 21 in the controller 200 receives the card reader reporting information, and the judges grade is a domestic consumer.Owing to be domestic consumer, directly energy-conservation action is set according to what give tacit consent to by data processing in the controller 200 and Logic control module, transfer to actions such as actuator 14 complete relevant device 18 keyings.

Particularly, the parameter that controller 200 collects from the sensor of being disposed 13 comprises air themperature, air humidity and intensity of illumination (can also further detect other parameters such as cleanliness factor of air as required).Suppose that the energy-conservation environment of acquiescence is set in the controller 200: (1) temperature in the room of device institute design system in a certain floor: spend summers 26, and spend winters 20; (2) humidity: summer 30% to 60%, winter 30% to 80%; (3) illumination: 300LUX.Then the steering logic in the controller 200 is: in the time of in (1) user's inlet chamber, according to the above-mentioned facilities such as starting illumination, air-conditioning that is provided with.(2) environmental parameter that arrives when sensor when surpassing above-mentioned scope, starts the adjustment means.Such as: summer humidity greater than 60% o'clock, start dehumidification function.(3) when environmental parameter is in this scope, the corresponding facility of temporary close is realized energy-conservation.

Fig. 7 illustrates the diagram of the Another application example of intelligent building energy conserving system of the present invention and method.As shown in Figure 7, the personalized user that carries subscriber card 19 gets into building or indoor.Card reader 12 monitors subscriber signal, and user profile is reported to controller 200.User management module 21 judges grades are personalized user in the controller 200, ask relevant electricity consumption facilities Allocation to management work station 15 with data processing server 16 with Logic control module 23 through data processing.Data processing server 16 inquiries obtain related data, submit to controller 200 through management work station 15, and data processing in the controller 200 and Logic control module 23 are again according to the Data Control actuator that obtains 14 adjustment electricity consumption facilities 18.

Suppose that personalized environmental parameter is set to: (1) Current Temperatures through control terminal: 25 degree; (2) current humidity: 30% to 70%; (3) current illumination: 700LUX.After the user gets into and disposes institute's design system indoor, at first, each electricity consumption facility will be provided with startup according to general like illumination, air-conditioning 18 etc.; Then, data processing and Logic control module 23 are to the personalized environmental parameter of management work station 15 requests; Next, data processing and Logic control module 23 compare the parameter that collects in the sensor 13 with this personalization environmental parameter, with this criterion as keying electricity consumption facility.Steering logic in the controller 200 is: in the time of in (1) user's inlet chamber, according to the general environment parameter facilities such as opening illumination, air-conditioning is set.(2) obtained personalized environmental parameter and be provided with after, the environmental parameter when sensor arrives when surpassing this personalization environmental parameter, starts the adjustment means.(3) when environmental parameter is in this scope, the corresponding facility of temporary close is realized energy-conservation.

Intelligent building power-economizing method provided by the invention and system, energy-saving controller is supported multiple user recognition technology, extensibility is good; Can carry out the control to the electricity consumption facility according to user gradation and user's request, Energy Saving Control is hommization more; Implement different energy-saving schemes to different user, and adopt different treatment schemees, the demand of the real-time of comprehensive satisfied control effect and accuracy two aspects of control data.

Description of the invention provides for example with for the purpose of describing, and is not the disclosed form that exhaustively perhaps limit the invention to.A lot of modifications and variation are obvious for those of ordinary skill in the art.Selecting and describing embodiment is for better explanation principle of the present invention and practical application, thereby and makes those of ordinary skill in the art can understand the various embodiment that have various modifications that the present invention's design is suitable for special-purpose.

Claims (10)

1. a building energy conservation controller is characterized in that, comprising:

The ambient condition data acquisition module is used for sending said ambient condition parameter from sensor reception environment state parameter;

User management module is used for receiving user profile from card reader, sends said user profile;

Data processing and Logic control module; Be used to receive from the user profile of said user management module with from the ambient condition parameter of said ambient condition data acquisition module; Obtain the Energy Saving Strategy corresponding, combine said ambient condition parameter control actuator adjustment ambient condition according to the corresponding Energy Saving Strategy of said user with said user profile.

2. according to the said building energy conservation controller of claim 1, it is characterized in that said data processing and Logic control module comprise:

The Energy Saving Strategy storage unit is used to store the Energy Saving Strategy of domestic consumer;

Personalized tactful acquiring unit is used to receive user profile, obtains the personalized Energy Saving Strategy corresponding with said user profile according to said user profile from management work station;

The user data processing unit is used to receive said user profile, judges that said user is domestic consumer or personalized user; When said user is domestic consumer, obtain said domestic consumer Energy Saving Strategy from said Energy Saving Strategy storage unit, send to logic control element; When said user is personalized user, obtain the personalized Energy Saving Strategy corresponding through the tactful acquiring unit of said personalization with said user profile, send to said logic control element;

Said logic control element is used to receive the ambient condition parameter from said sensor, according to said domestic consumer Energy Saving Strategy that receives or said personalized Energy Saving Strategy control actuator adjustment ambient condition.

3. building energy conservation controller according to claim 2 is characterized in that, writes the Energy Saving Strategy of said domestic consumer to said Energy Saving Strategy storage unit through said management work station.

4. building energy conservation controller according to claim 1 is characterized in that said sensor comprises temperature sensor, humidity sensor, illuminance transducer;

Or

Said card reader is contact or non-contact inductive card reader.

5. a building energy conservation system is characterized in that, comprises like any described building energy conservation controller in the claim 1 to 4;

Also comprise:

Data processing server is used to store user's personalized Energy Saving Strategy;

Management work station is used to receive the user profile from said building energy conservation controller, obtains said user's personalized Energy Saving Strategy according to said user profile from said data processing server, sends to said building energy conservation controller.

6. building energy conservation according to claim 5 system is characterized in that, also comprises:

Card reader is used for reading the user profile of subscriber card, sends to said building energy conservation controller;

Sensor is used for the monitoring of environmental state parameter;

Actuator is used to receive the steering order from said building energy conservation controller, adjusts equipment according to the said steering order state that controls environment.

7. building energy conservation according to claim 5 system is characterized in that, also comprises:

Control terminal, being used for control terminal provides human-computer interaction interface, and the function of the said building energy conservation of management system is provided to the user.

8. an intelligent building power-economizing method is characterized in that, comprising:

From sensor reception environment state parameter;

Receive user profile from card reader, obtain the Energy Saving Strategy corresponding with said user profile;

Combine said ambient condition parameter control actuator adjustment ambient condition according to the corresponding Energy Saving Strategy of said user.

9. intelligent building power-economizing method according to claim 8 is characterized in that, saidly obtains the Energy Saving Strategy corresponding with said user profile and comprises:

Judge that according to said user profile said user is domestic consumer or personalized user; When said user is domestic consumer, read said domestic consumer Energy Saving Strategy from the building energy conservation controller; When said user is personalized user, obtain the personalized Energy Saving Strategy corresponding with said user profile through the management work station acquiring unit.

10. intelligent building power-economizing method according to claim 9 is characterized in that, also comprises:

Write said domestic consumer Energy Saving Strategy through management work station to said building energy conservation controller.

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