CN103679304A - Building energy management system based on cloud services - Google Patents

Abstract

The invention discloses a building energy management system based on cloud services, relates to the technical field of energy management, and solves the technical problem of reducing the energy consumption. The system comprises a parameter perception layer consisting of an energy consumption acquiring device, an electric interface device and an environment monitoring device, a data transmission layer consisting of an Ethernet network, a gateway and a network interface module, a cloud service layer consisting of a cloud storage server group and a cloud computing server group, and a client terminal layer consisting of a plurality of client terminals, wherein the data transmission layer is responsible for the transmission of data; all appliances and devices of the parameter perception layer are respectively accessed in the data transmission layer for acquiring energy consumption data of energy consumption objects and environmental data of environmental objects and receiving electric parameters output by electric objects; all servers in the cloud service layer and all client terminals in the client terminal layer are accessed in the data transmission layer. The system, provided by the invention, can help users to master the energy use rules, discover the energy-saving potential and find out the energy consumption loopholes.

Description

Building energy management system based on cloud service

Technical field

The present invention relates to energy management technology, particularly relate to a kind of technology of the building energy management system based on cloud service.

Background technology

In the face of energy-intensive severe situation, since over half a century, first the developed country of the extensive development of industrialization of passing by recognizes the seriousness of energy scarcity, then constantly adopts infotech to improve energy management level.The countries such as the U.S., Germany, Japan, Denmark, Norway, France, Britain just began one's study and apply energy management system in the sixties, had obtained good effect.

In the U.S., area surpasses the building of 100,000 square feet to be had more than 50% and all has energy management system, and this is equivalent to 1/3 of the whole commercial building areas of the U.S..The experience of the U.S. shows to adopt energy management system can save every year on average the more than 10% of the whole energy consumptions of buildings.

Because < < Tokyo agreement > > requires Canada between 2008-2012, greenhouse gas emissions to be reduced to than the level of nineteen ninety low 6%, so Canadian government also starts to formulate some standards and the rules about the energy management system of enterprise in recent years.

The experience of Hibernian energy management system shows, use the investment of energy management system to be generally 2 years return period, and after employing energy management system, the increment of energy resource consumption and the recruitment of enterprise product are not linear, but far below product volume growth rate.

Japan is the country of a scarcity of resources, and twice oil crisis of the seventies in last century allows Japan make a decision sincerely, and strives doing the energy-conservation big country of World super.Japanese architecture energy-conservation is mainly reflected in the energy-conservation and building of architectural design and uses energy-conservation two aspects of management.The Tokyo headquarters building of SUNX is exactly the design model common energy-conservation with using management, and the one, in design process, adopt advanced power-saving technology, as solar panel, air hole, sunshading facility, roof greening, energy-saving type air conditioner etc.; The 2nd, in use focus on administration of energy conservation, as enabled, take floor, region, building is totally the stagewise energy-saving control system of unit, take and measures and monitor energy-saving monitoring system as supporting etc.By the co-operation of this two aspect, really realized energy-conservation in building Life cycle.Japan in 2003 comes into effect < < and revises energy conservation > >, and the appearance explanation Japan of these rules includes the energy-conservation of constructing operation process in daily management in.

In recent years, importance and the urgency of by information-based means, strengthening energy-saving monitoring, propulsion energy-saving work have caused the great attention of government department to China.Since 2007, released a series of energy-saving act, at the beginning of 2007 6 months, State Council of the People's Republic of China prints and distributes the comprehensive programme of work > of < < energy-saving and emission-reduction >, explicitly call for and set up and improve energy-saving and emission-reduction index system, monitoring system and checking system, strict management of building's energy saving.Particularly for national office building and large public building, some management suggestions have been issued.Under this environment, many colleges and universities and enterprise all release the building energy consumption monitoring system of oneself one after another, as Tsing-Hua University, Dalian University of Technology, Tongji University, Shenzhen reach real intelligence, SUPCON, Nanjing Lian Hongdeng enterprise.

In Google company, propose after the concept of cloud computing, people start to notice cloud computing huge advantage technically and the wide potential market of bringing, and make whole IT industry circle unanimously think that it will bring the once thoroughly revolution of whole information industry.In order to rob the first chance in this field, current global national governments and transregional company all start the cloud computing research and extension plan of oneself one after another, drop into a large amount of human and material resources, financial resources start in the research and development of cloud computing correlation technique.

U.S. government has offered special fund and for Government departments, has carried out the trial of cloud computing, federal government has also set up cloud computing working group and has specified CTO in its information-based office specially, and has set up cloud computing center in departments such as Ministry of National Defence, National Aerospace Bureau; NASA has also carried out the cloud computing plan of oneself specially--Nebula plan.European Union releases the cistern plan of oneself, is mainly used in studying the cloud computing gordian technique of virtual architecture and European Union, and in this project, has released the cloud service framework OpenNebula of the opening of oneself; In Britain, the cloud computing plan G-cloud that mentions specially British government in the report of the digital Great Britain of being issued by national information office plans; Japan has started the cloud computing infrastructure construction of " Kasumigaseki ".As far back as 2008, Singapore Tourist Promotion Board just started the research with Yahoo and Intel cooperation development cloud computing collaborative project; India and Korea S have also all released their cloud computing developing goals separately one after another.From company and industrial community, many large-scale transregional companys have also released the cloud platform architecture of oneself one after another, and the elastic cloud computing platform EC2 releasing as Amazon Company, the AppEngine cloud platform plan that Google releases, the blue cloud plan of IBM are, the Abicloud cloud computing platform plan that the Azure cloud computing plan that Microsoft releases and Spain Abiquo company release etc.

When just carrying out like a raging firely for cloud computing cause in the world, China to the Exploration and Research of cloud computing also carrying out tensely and in an orderly way.Although from State-level, China does not resemble other countries and releases the national cloud computing plan of oneself, still very large in the subsidy dynamics in this field.First, nationwide cloud computing conference was just opened by the subordinate's of association of China Electronics cloud computing special commission as far back as 2008, and it is cloud computing Model City that five cities such as file approval Beijing, Shanghai, Hangzhou, Guangzhou and Shenzhen are formally assigned again by country.Except the support energetically of State-level, also dished out one after another oneself cloud computing support plan, typically has " sea of clouds " plan, the cloud computing center in Chengdu, the Chinese cloud computing ID port in Wuhan, the Taihu Lake cloud computing center of Wuxi in Pekinese's " auspicious cloud " plan, Shanghai etc.The enterprise of China has also all released own cloud computing project or product one after another, and A-1. Net has released CloudEx product line; Taobao, Tengxun, grand network have all been released the cloud computing application of oneself; The companies such as Rising, Kingsoft, Jiang Min have released the solution of cloud security; China Mobile has released the great Yun plan of oneself; The enterprise such as China Telecom, CHINAUNICOM is also just putting forth effort on the construction of cloud computing basic platform.But these cloud computing projects overwhelming majority goes to consider a problem from the aspect of business model and architecture, aspect from application, can utilize fully and bring into play cloud computing advantage, providing on-demand service, automatic extendible application seldom to see.Particularly in energy management, application energy-saving and cost-reducing, green low-carbon field, there is no especially the case report of successful Application.

Yet, with respect to current social to building energy management more extensively, more urgent demand, comprehensive present situation both domestic and external, further applying of building energy management system also exists certain deficiency, the support of technical system that need to be more perfect and the promotion of industrialization at present.

First, the function of domestic building energy management system substantially all rests in the aspect of " energy consumption monitoring ", system only gathers building energy consumption data, and do not gather affecting the other factors of energy consumption, as each operational factor of indoor temperature, air-conditioning system, the open degree of illuminator etc., this just makes the whole analysis ability of system inadequate, cannot comparatively fast draw energy leak place, and " management " function of this system can not be given full play to.

Second, existing energy management system is difficult to and building control system docking (and reality is controlled the subsystem that system should become energy management system upstairs), this just causes these two systems separate, information cannot be shared, and makes " data monitoring-analyzing and diagnosing-control is carried out " this closed loop procedure cannot complete closed loop.

The 3rd, do not possess the ability of multi-user, mass data, distributed treatment, be only applicable to single building, small-scale application.

The 4th, existing energy management system to the analyzing and processing ability of data a little less than, mainly adopt some comparative analysis means, as across comparison, ratio of components, chain rate etc.Lack some robotizations, intelligent data analysis mining module.

The 5th, the domestic processing mode to building energy consumption does not almost also have the concept of " management ", just property personnel, to building some simple starting and stopping operation and maintenance maintenances of interior equipment, are also difficult to go operation according to optimized mode even if having the building of perfect automatic building control system (BA).

The 6th, the hardware product of each producer and software product are widely different on function, performance and interface mode, do not have interchangeability, so domestic so far, also there is no to occur an integrated solution very ripe, perfect, that extensively approved.

At present very rare in research and the system of building energy management domain, to such an extent as to a lot of buildings do not know the energy be how to consume, equipment operation whether efficiently, the concept and the ability that lack " energy saving of system ", some reducing energy consumptions have even been done, and occur that a place is energy-conservation and cause other place's power consumption, the situation that last overall energy consumption increases on the contrary occurs.

Summary of the invention

For the defect existing in above-mentioned prior art, technical matters to be solved by this invention be to provide a kind of can help user grasp with can rule, find energy-saving potential, find energy consumption leak, reduce the building energy management system based on cloud service of energy resource consumption.

In order to solve the problems of the technologies described above, a kind of building energy management system based on cloud service provided by the present invention, relates to buildings, and described buildings has a plurality of energy monitor objects, and described energy monitor object comprises power consumption object, electric object, environmental objects;

It is characterized in that, this system comprises:

Parameter sensing layer, by a plurality of energy consumption harvesters, a plurality of electric interfaces device, a plurality of environment monitoring device, formed, the collection head of each energy consumption harvester connects respectively the object that respectively consumes energy, for gathering respectively the energy resource consumption data of the object that respectively consumes energy, the input end of each electric interfaces device connects respectively each electric object, for receiving respectively the electric parameter of each electric object output, the monitor head of each environment monitoring device accesses respectively each environmental objects, for gathering respectively the environmental data of each environmental objects;

Data transfer layer, be responsible for the transmission of data, by Ethernet, and being connected to a plurality of gateways of Ethernet, a plurality of Network Interface Module composition, the output terminal of each energy consumption harvester in parameter sensing layer, the output terminal of each electric interfaces device, the output terminal of each environment monitoring device are connected respectively to each gateway, the Network Interface Module in data transfer layer;

Cloud service layer, by cloud storage server group, cloud computing server group, formed, cloud storage server group is responsible for data storage, by many cloud storage servers, formed, cloud computing server group is responsible for calculating, many cloud computing servers, consist of, every cloud storage server and every cloud computing server are all connected to the Ethernet in data transfer layer;

Client terminal layer, is comprised of many client terminals, and every client terminal is all connected to the Ethernet in data transfer layer.

Further, described energy consumption harvester comprise water meter for gathering power consumption object water resources consumption amount information, for gathering the ammeter of power consumption object power consumption information, for gathering the gas meter, flow meter of power consumption object amount of consumed gas information, for gathering the calorimeter of power consumption object consumption of heat energy information.

Further, described electric interfaces device comprises RS232/485 communication interface device, Modbus communication interface device.

Further, described environment monitoring device comprises for gathering the Temperature Humidity Sensor of environmental objects aerial temperature and humidity, for gathering the CO2 sensor of environmental objects air CO2 concentration, for gathering the PM2.5 sensor of environmental objects air floating dust particle content, for gathering stream of people's arrangement for detecting of environmental objects flow of personnel situation.

Further, described gateway comprises cable gateway, radio network gateway, and the communication module that described radio network gateway adopts comprises Zigbee communication module, GPRS communication module, cdma communication module, Wifi communication module.

Further, described client terminal comprises computing machine, mobile phone, PDA.

Building energy management system based on cloud service provided by the invention, by on-line monitoring technique, data analysis digging technology theory applies in the energy management system of groups of building Life cycle comprehensively, the energy resource consumption situation of each subsystem of dynamic monitoring buildings or equipment, by cloud service layer, image data is analyzed, provide preliminary energy consumption diagnostic result and suggestion, the various statistics that outside human expert is shown by client terminal layer, analysis result, according to actual monitoring situation, user is provided to final Saving energy, help user to grasp by energy rule, find energy-saving potential, find energy consumption leak, reduce energy resource consumption.

Accompanying drawing explanation

Fig. 1 is the structural representation of the building energy management system based on cloud service of the embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing explanation, embodiments of the invention are described in further detail, but the present embodiment is not limited to the present invention, every employing analog structure of the present invention and similar variation thereof, all should list protection scope of the present invention in.

As shown in Figure 1, a kind of building energy management system based on cloud service that the embodiment of the present invention provides, relates to buildings, and described buildings has a plurality of energy monitor objects, and described energy monitor object comprises power consumption object, electric object, environmental objects;

Described power consumption object refers to the conventional energy resources power consumption object of conventional energy resourcess such as consuming water, electricity, gas, heat, and consumes the new forms of energy power consumption object (such as earth source heat pump, three alliances etc.) of the new forms of energy such as sun power, ground source heat energy;

Described electric object refers to the electric object (electrical equipments such as lighting circuit, air-conditioning equipment, elevator, electric wiring etc.) that can export electric parameter;

Described environmental objects refers to personnel activity's environment, and buildings surrounding enviroment;

It is characterized in that, this system comprises:

Parameter sensing layer, by a plurality of energy consumption harvesters, a plurality of electric interfaces device, a plurality of environment monitoring device, formed, the collection head of each energy consumption harvester connects respectively the object that respectively consumes energy, for gathering respectively the energy resource consumption data of the object that respectively consumes energy, the input end of each electric interfaces device connects respectively each electric object, for receiving respectively the electric parameter of each electric object output, the monitor head of each environment monitoring device accesses respectively each environmental objects, for gathering respectively the environmental data of each environmental objects;

Data transfer layer, be responsible for the transmission of data, by Ethernet, and being connected to a plurality of gateways of Ethernet, a plurality of Network Interface Module composition, the output terminal of each energy consumption harvester in parameter sensing layer, the output terminal of each electric interfaces device, the output terminal of each environment monitoring device are connected respectively to each gateway, the Network Interface Module in data transfer layer;

Cloud service layer, by cloud storage server group, cloud computing server group forms, there is distributed storage, Distributed Calculation, mass data, calculate in real time the feature that waits " cloud ", cloud storage server group is responsible for data storage, by many cloud storage servers, formed, it is the carrier of types of functionality module, cloud computing server group is responsible for calculating, by many cloud computing servers, formed, in cloud computing server, be respectively equipped with for gathering the real-time data acquisition module of each energy monitor object real time data, data processing module for the treatment of image data, can to buildings, carry out according to real time data the expert's subsystem based on Analysis of Knowledge Bases Reasoning of online diagnosis of energy saving, every cloud storage server and every cloud computing server are all connected to the Ethernet in data transfer layer,

Client terminal layer, is comprised of many client terminals, and every client terminal is all connected to the Ethernet in data transfer layer, and described client terminal comprises local terminal, remote terminal.

In the embodiment of the present invention, described energy consumption harvester comprises water meter for gathering power consumption object water resources consumption amount information, for gathering the ammeter of power consumption object power consumption information, for gathering the gas meter, flow meter of power consumption object amount of consumed gas information, for gathering the calorimeter of power consumption object consumption of heat energy information.

In the embodiment of the present invention, described electric interfaces device comprises RS232/485 communication interface device, Modbus communication interface device, and is exclusively used in special purpose interface device of the electric object of some of them etc.

In the embodiment of the present invention, described environment monitoring device comprises for gathering the Temperature Humidity Sensor of environmental objects aerial temperature and humidity, be used for gathering environmental objects air CO2(carbon dioxide) the CO2 sensor of concentration, for gathering the PM2.5 sensor (being floating dust particle sensor) of environmental objects air floating dust particle content, for gathering stream of people's arrangement for detecting (such as entrance guard device, RFID device, infrared monitoring device etc.) of environmental objects flow of personnel situation.

In the embodiment of the present invention, described gateway comprises cable gateway, radio network gateway, and the communication module that described radio network gateway adopts comprises Zigbee communication module, GPRS communication module, cdma communication module, Wifi communication module.

In the embodiment of the present invention, described client terminal comprises computing machine, mobile phone, PDA(palm PC).

The principle of work of the embodiment of the present invention is as follows:

In parameter sensing layer, the energy resource consumption data of the object that respectively consumes energy that each energy consumption harvester gathers respectively, and be uploaded to cloud service layer by data transfer layer, the electric parameter that each electric object is exported is respectively uploaded to cloud service layer by each electric interfaces device and data transfer layer, each environment monitoring device gathers respectively the environmental data of each environmental objects, and is uploaded to cloud service layer by data transfer layer;

In cloud service layer, the real-time data acquisition module in each cloud computing server receives after the data that parameter sensing layer uploads by data transfer layer, sends into the storage of cloud storage server;

Client terminal is by three layers of B/S(browser/server based on BlazeDS) logical organization communicates by letter with cloud storage server, cloud computing server in cloud service layer, wherein:

The first logical layer is user interface layer: client terminal is the graphical interfaces interface of user and whole management system, Client application is simplified a general browser software (as IE of Microsoft etc.), for cloud service user provides the monitoring of the energy monitor object under cloud service management, the analysis of energy monitor object data, statistics, the graphical interfaces of issue, also for the dissimilar expert of industry provides the interface that the aspects such as buildings operational management is proposed to various suggestions, also for terminal user provides the customer service of reporting for repairment connection interface, the function with real-time, interactive, real-time device status data under energy real-time release cloud platform, and express with the graphic element enriching, and allow user on interface, to process relevant data, the interface of access back-end data is provided,

The second logical layer is Business Logic, and cloud computing server will start corresponding long-range RPC service logic function, and allows user interface layer to carry out far-end by BlazeDS mode to call, and with asynchronous mode return data;

The 3rd logical layer is database layer, and cloud storage server and cloud computing server provide raw data, and processes back-end data request (for example SQL request).

In the embodiment of the present invention, the expert's subsystem based on Analysis of Knowledge Bases Reasoning that cloud computing server adopts is prior art, this subsystem development very early, also comparative maturity, had multiple comparatively successfully application, its difficult point does not lie in system itself, but the regular generation that reasoning is used, in the situation that rule is complete, this type expert subsystem can replace human expert completely.At building energy management domain, due to varying of buildings itself, and the complicacy of built-in system, be difficult to pass through first to system made model, then the mode of diagnosing is carried out, so expert opinion is described with rule-based form, is than better suited.

The location of the embodiment of the present invention is by progressively absorbing all kinds of experts' experience and some knowledge of field engineer, improve gradually whole knowledge base system, and expert's subsystem can help user to do tentative diagnosis according to existing knowledge, provide emphasis diagnosis direction and method, shorten the Diagnostic Time of domestic consumer, and the experience that user accumulates in actual items can become rule, write knowledge base, with this, form a benign circulation process.

The management system of the embodiment of the present invention is usingd Flex+BlazeDS+Java+Nginx+Tomcat+MongoDB(and is supported multiple database kind) as software architecture, take MongoDB as background data base, adopt Flex+BlazeDS+java constructor framework, application browser/server (B/S) structure is carried out the structure of completion system.

In the rear end of system, use java and BlazeDS to develop, use java that different RPC far call interfaces is provided, provide different JavaBean objects to safeguard different database table structures simultaneously; BlazeDS provides unified AMF data flow path, and different adapters is (for different data, services, as ActionScriptAdapter, the JMSAdapter of ActiveMQ data subscription of the JavaAdapter of RPC far call, the subscription of java back-end data), therefore the data after system front end can come asynchronous monitoring from BlazeDS broadcast renewal by different subscribing manner (Destination), synchronous with the data that reach between B/S.

Front end in system, Flex adopts the Open Framework system PureMVC Multicore based on MVC development mode to carry out Development of Modular, PureMVC Multicore is the ripe Open Framework for Development of Modular, based on this development mode, can allow system accomplish to plug, allow system load different modules according to the authority of different user, in code structure, each module corresponding the single core architecture of a PureMVC, between system and module, dispatch by system coordination person between module and module.

PureMVC is the program frame freely of increasing income that Futurescale company creates and safeguards, its initial alignment is in design high-performance RIA(Rich Internet Application) framework based on pattern of client.Be transplanted to now on other platform (as java, PHP etc.), its topmost object is exactly program to be divided into the three-decker of low coupling, i.e. Model, View and Control; Facade is Model, View and Controller three " middle man ", uses the message mechanism based on Observer Pattern to coordinate the relation between Model, View, Controller, has farthest reduced the degree of coupling between three.

The embodiment of the present invention is in the process of actual development, used a third party Flex framework-Fabrication who increases income, this framework is the Flex/Flash application tool of an accelerate development based on PureMVC framework, it is many useful characteristics for PureMVC programming grammar has added, and the foundation of Fabrication is mainly in order to support multimode application and only to expand realization with multinuclear version PureMVC.

Embodiment of the present invention support is extensive, distributed, multi-user, mass data, can carry out fast integration (as lamp light control system, automatic building control system etc. to the existing system of interior of building and equipment, hvac equipment, lift facility etc.), make it networking, integrate peripheral expert's subsystem and take the pattern of cloud service and provide energy-conservation solution specialized, integrated, that become more meticulous as groups of building.

Claims (6)

1. the building energy management system based on cloud service, relates to buildings, and described buildings has a plurality of energy monitor objects, and described energy monitor object comprises power consumption object, electric object, environmental objects;

It is characterized in that, this system comprises:

Parameter sensing layer, by a plurality of energy consumption harvesters, a plurality of electric interfaces device, a plurality of environment monitoring device, formed, the collection head of each energy consumption harvester connects respectively the object that respectively consumes energy, for gathering respectively the energy resource consumption data of the object that respectively consumes energy, the input end of each electric interfaces device connects respectively each electric object, for receiving respectively the electric parameter of each electric object output, the monitor head of each environment monitoring device accesses respectively each environmental objects, for gathering respectively the environmental data of each environmental objects;

Data transfer layer, be responsible for the transmission of data, by Ethernet, and being connected to a plurality of gateways of Ethernet, a plurality of Network Interface Module composition, the output terminal of each energy consumption harvester in parameter sensing layer, the output terminal of each electric interfaces device, the output terminal of each environment monitoring device are connected respectively to each gateway, the Network Interface Module in data transfer layer;

Cloud service layer, by cloud storage server group, cloud computing server group, formed, cloud storage server group is responsible for data storage, by many cloud storage servers, formed, cloud computing server group is responsible for calculating, many cloud computing servers, consist of, every cloud storage server and every cloud computing server are all connected to the Ethernet in data transfer layer;

Client terminal layer, is comprised of many client terminals, and every client terminal is all connected to the Ethernet in data transfer layer.

2. the building energy management system based on cloud service according to claim 1, is characterized in that: described energy consumption harvester comprises water meter for gathering power consumption object water resources consumption amount information, for gathering the ammeter of power consumption object power consumption information, for gathering the gas meter, flow meter of power consumption object amount of consumed gas information, for gathering the calorimeter of power consumption object consumption of heat energy information.

3. the building energy management system based on cloud service according to claim 1, is characterized in that: described electric interfaces device comprises RS232/485 communication interface device, Modbus communication interface device.

4. the building energy management system based on cloud service according to claim 1, it is characterized in that: described environment monitoring device comprises for gathering the Temperature Humidity Sensor of environmental objects aerial temperature and humidity, for gathering the CO2 sensor of environmental objects air CO2 concentration, for gathering the PM2.5 sensor of environmental objects air floating dust particle content, for gathering stream of people's arrangement for detecting of environmental objects flow of personnel situation.

5. the building energy management system based on cloud service according to claim 1, it is characterized in that: described gateway comprises cable gateway, radio network gateway, the communication module that described radio network gateway adopts comprises Zigbee communication module, GPRS communication module, cdma communication module, Wifi communication module.

6. the building energy management system based on cloud service according to claim 1, is characterized in that: described client terminal comprises computing machine, mobile phone, PDA.

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