CN110275501A - Integrated energy management and control system for energy internet - Google Patents

Abstract

Translated fromChinese

本发明公开了一种面向能源互联网的综合能源管控系统，包含终端层、通信层、平台层和应用层；终端层针对每一物理能源均部署相应的智能终端；每一智能终端均用于实现对相应的物理能源的遥信数据、遥测数据、遥控数据、遥调数据和/或遥视数据的实时采集，为管控系统的数据分析与实时控制提供支撑；平台层包括若干云计算机，以及相应的机房基础设施、计算机网络、磁盘柜、服务器/虚拟机、操作系统、数据库、中间件和运行库；应用层根据用户的需求向用户提供平台层的计算资源或者数据；终端层、平台层和应用层籍由通信层连接呈一体。本发明能够承载能源互联网“能源流、信息流、业务流”三流合一，满足能源互联网的发展需求。

The invention discloses a comprehensive energy management and control system oriented to the energy internet, which includes a terminal layer, a communication layer, a platform layer and an application layer; the terminal layer deploys corresponding intelligent terminals for each physical energy source; each intelligent terminal is used to realize The real-time collection of remote signaling data, telemetry data, remote control data, remote adjustment data and/or remote viewing data of the corresponding physical energy provides support for data analysis and real-time control of the management and control system; the platform layer includes several cloud computers, and corresponding The computer room infrastructure, computer network, disk cabinet, server/virtual machine, operating system, database, middleware and runtime library; the application layer provides users with computing resources or data of the platform layer according to their needs; the terminal layer, platform layer and The application layer is integrated by the communication layer. The present invention can carry the three flows of "energy flow, information flow and business flow" of the energy Internet in one, and meet the development needs of the energy Internet.

Description

Translated fromChinese

面向能源互联网的综合能源管控系统Integrated energy management and control system for energy internet

技术领域technical field

本发明涉及电力能源管理技术领域，特别涉及一种面向能源互联网的综合能源管控系统。The invention relates to the technical field of electric power energy management, in particular to a comprehensive energy management and control system oriented to the energy internet.

背景技术Background technique

随着新一轮电力体制改革的不断推进，各种壁垒不断突破，各方面部署不断落实，改革逐步进入快车道和深水区，为传统电网企业的发展带来了冲击和挑战，电网企业定位和盈利模式亦将发生重大改变。With the continuous advancement of the new round of power system reform, various barriers have been continuously broken, and various deployments have been continuously implemented. The reform has gradually entered the fast lane and deep water area, which has brought impact and challenges to the development of traditional power grid enterprises. The profit model will also undergo major changes.

为直面改革的冲击和挑战，电网企业近年来陆续调整发展方向，将综合能源服务作为主营业务和新的利润增长点，从而更进一步的促进了能源互联网的发展。同时，为了应对能源互联网发展对电力系统海量数据全面感知、广泛互联的要求，物联网技术与智能电网深度融合而来的泛在电力物联网概念被提出，成为能源互联网电力领域信息共享网络发展的新思路、新模式、新焦点，也为综合能源管控系统的升级演进提供了新机遇。In order to face the impact and challenges of the reform, power grid companies have successively adjusted their development directions in recent years, taking integrated energy services as their main business and a new profit growth point, thus further promoting the development of the Energy Internet. At the same time, in order to meet the requirements of energy Internet development for comprehensive perception and extensive interconnection of massive data in the power system, the concept of ubiquitous power Internet of Things, which is based on the deep integration of Internet of Things technology and smart grid, has been proposed. New ideas, new models, and new focuses also provide new opportunities for the upgrade and evolution of the integrated energy management and control system.

因此，本领域迫切需要开发新的，能够承载能源互联网“能源流、信息流、业务流”三流合一的综合能源管控系统，满足能源互联网的发展需求。Therefore, there is an urgent need in this field to develop a new comprehensive energy management and control system that can carry the three-in-one energy flow, information flow, and business flow of the Energy Internet to meet the development needs of the Energy Internet.

发明内容SUMMARY OF THE INVENTION

有鉴于现有技术的上述缺陷，本发明提供一种面向能源互联网的综合能源管控系统，实现的目的是能够承载能源互联网“能源流、信息流、业务流”三流合一，满足能源互联网的发展需求。In view of the above-mentioned defects of the prior art, the present invention provides a comprehensive energy management and control system oriented to the energy Internet, which realizes the purpose of being able to carry the three streams of "energy flow, information flow, and business flow" of the energy Internet, so as to meet the development of the energy Internet. need.

为实现上述目的，本发明公开了一种面向能源互联网的综合能源管控系统，包含终端层、通信层、平台层和应用层；In order to achieve the above purpose, the present invention discloses a comprehensive energy management and control system oriented to the energy Internet, which includes a terminal layer, a communication layer, a platform layer and an application layer;

所述终端层针对每一物理能源均部署相应的智能终端；每一所述智能终端均用于实现对相应的所述物理能源的遥信数据、遥测数据、遥控数据、遥调数据和/或遥视数据的实时采集，为所述管控系统的数据分析与实时控制提供支撑；The terminal layer deploys a corresponding intelligent terminal for each physical energy source; each of the intelligent terminals is used to realize remote signaling data, telemetry data, remote control data, remote adjustment data and/or remote control data for the corresponding physical energy source. Real-time collection of remote viewing data provides support for data analysis and real-time control of the management and control system;

所述通信层运用通信网技术、互联网技术以及物联网技术，用于实现能源流与信息流的融合互通；The communication layer uses communication network technology, Internet technology and Internet of Things technology to realize the integration and intercommunication of energy flow and information flow;

所述平台层包括若干云计算机，以及相应的机房基础设施、计算机网络、磁盘柜、服务器/虚拟机、操作系统、数据库、中间件和运行库；The platform layer includes several cloud computers, and corresponding computer room infrastructure, computer networks, disk cabinets, servers/virtual machines, operating systems, databases, middleware and runtime libraries;

所述平台层布置基础设施设备，用于实现所述平台的基础设施即服务层至所述平台的软件即服务层的建设；The platform layer arranges infrastructure equipment for realizing the construction of the infrastructure as a service layer of the platform to the software as a service layer of the platform;

所述平台层籍由将若干所述云计算机的计算资源进行池化的方式，满足所述管控系统具备快速的弹性计算、广泛的网络访问的功能，实现对软硬件资源库进行统一调度和管理；The platform layer pools the computing resources of several cloud computers, so that the management and control system has the functions of fast elastic computing and extensive network access, and realizes unified scheduling and management of software and hardware resource libraries. ;

所述平台层运用云计算、大数据、物联网、移动互联等新技术对所述终端层的智能终端所采集的电力、水流量、气流量等数据进行分析处理，为所述的应用层提供数据服务及基于数据的其他服务；The platform layer uses cloud computing, big data, Internet of Things, mobile Internet and other new technologies to analyze and process data such as power, water flow, air flow and other data collected by the intelligent terminals in the terminal layer, and provide the application layer. data services and other data-based services;

所述应用层根据所述用户在所述客户端界面访问使提交的需求向所述用户提供所述平台层的计算资源或者数据；The application layer provides computing resources or data of the platform layer to the user according to the requirements submitted by the user on the client interface;

所述终端层、所述平台层和所述应用层籍由所述通信层连接呈一体。The terminal layer, the platform layer and the application layer are connected and integrated by the communication layer.

优选的，所述平台层包括物理设施层、虚拟资源层、数据服务网、基础功能层；Preferably, the platform layer includes a physical facility layer, a virtual resource layer, a data service network, and a basic function layer;

所述物理设施层包括机房基础建设、计算机网络构建、存储设备、服务器设备；The physical facility layer includes computer room infrastructure, computer network construction, storage equipment, and server equipment;

所述虚拟资源层包括配置云管理工具和硬件资源，形成包括计算、存储和网络的资源池；The virtual resource layer includes configuring cloud management tools and hardware resources to form a resource pool including computing, storage and network;

所述数据服务网包括建立关系数据库、时序数据库和对象数据库；The data service network includes establishing a relational database, a time series database and an object database;

所述基础功能层包括构建相应的基础功能模块、中间件和者运行库。The basic function layer includes constructing corresponding basic function modules, middleware and runtime libraries.

更优选的，所述物理设施层中存储体系包括逻辑盘卷管理、RBD/Glusterfs、日志文件系统、串口硬盘和/或固态硬盘；More preferably, the storage system in the physical facility layer includes logical disk volume management, RBD/Glusterfs, log file system, serial hard disk and/or solid-state hard disk;

所述物理设施层中网络体系包括虚拟交换软件、Linux网桥、虚拟局域网、隧道网络。The network system in the physical facility layer includes virtual switching software, Linux network bridge, virtual local area network, and tunnel network.

优选的，所述智能终端包括控制终端、通信终端、计量终端和采集终端。Preferably, the intelligent terminal includes a control terminal, a communication terminal, a measurement terminal and a collection terminal.

更优选的，所述控制终端包括配电自动化终端、主动配电网终端、负控终端、远动终端、测控终端、保护终端、热网控制器、阀门控制器、气压控制器、报警控制器等设备；More preferably, the control terminal includes a distribution automation terminal, an active distribution network terminal, a negative control terminal, a remote control terminal, a measurement and control terminal, a protection terminal, a heat network controller, a valve controller, an air pressure controller, and an alarm controller. and other equipment;

所述通信终端包括通信管理机、交换机、路由器、串口服务器、通信网关机、I/O管理终端等设备；The communication terminal includes a communication management machine, a switch, a router, a serial port server, a communication gateway machine, an I/O management terminal and other equipment;

所述计量终端包括电能表、水流量表、气体流量表、热量表、功率计量表等设备；The metering terminal includes electric energy meter, water flow meter, gas flow meter, heat meter, power meter and other equipment;

所述采集终端包括电能量采集装置、故障录波装置、数采仪、保护终端、温度传感器、湿度传感器、烟感传感器、热值仪、压力变送器、流量变送器、空调数据采集器、摄像头、气体探测器等设备。The acquisition terminal includes an electrical energy acquisition device, a fault recording device, a data acquisition instrument, a protection terminal, a temperature sensor, a humidity sensor, a smoke sensor, a calorific value meter, a pressure transmitter, a flow transmitter, and an air conditioner data collector. , cameras, gas detectors and other equipment.

优选的，所述物理能源包括变电站、发电机组、光伏发电风力发电、储能和/或气站。Preferably, the physical energy sources include substations, generator sets, photovoltaic power generation, wind power generation, energy storage and/or gas stations.

优选的，若干所述智能终端分别包括控制终端、通信终端、计量终端和采集终端。Preferably, several of the intelligent terminals respectively include a control terminal, a communication terminal, a measurement terminal and a collection terminal.

优选的，所述通信层包括通信网、互联网和/或物联网；所述通信网籍由光纤、以太网、4G网络和串口实现；所述互联网为Internet网；所述物联网包括NB-IOT网、Lora网、ZigBee网。Preferably, the communication layer includes a communication network, the Internet and/or the Internet of Things; the communication network is realized by optical fibers, Ethernet, 4G networks and serial ports; the Internet is an Internet network; the Internet of Things includes NB-IOT network, Lora network, ZigBee network.

优选的，所述应用层以云平台的形式接收所述用户的需求，并根据用户的需求，将所述平台层的计算资源或者数据以控制类应用、交易类应用和/或服务类应用的形式提供给所述用户；Preferably, the application layer receives the user's requirements in the form of a cloud platform, and according to the user's requirements, converts the computing resources or data of the platform layer into control applications, transaction applications and/or service applications. form provided to said user;

所述云平台与每一所述控制类应用、每一所述交易类应用和每一所述服务类应用之间均存在数据交互和功能调用；There is data interaction and function invocation between the cloud platform and each of the control applications, each of the transaction applications and each of the service applications;

每一所述控制类应用、每一所述交易类应用和每一所述服务类应用之间均存在数据交互。There is data interaction between each of the control applications, each of the transaction applications and each of the service applications.

优选的，还包括安全防护体系和信息标准体系。Preferably, it also includes a security protection system and an information standard system.

本发明的有益效果：Beneficial effects of the present invention:

本发明能够承载能源互联网“能源流、信息流、业务流”三流合一，满足能源互联网的发展需求。The present invention can carry the three streams of "energy flow, information flow and business flow" of the energy internet in one, and meet the development demands of the energy internet.

以下将结合附图对本发明的构思、具体结构及产生的技术效果作进一步说明，以充分地了解本发明的目的、特征和效果。The concept, specific structure and technical effects of the present invention will be further described below in conjunction with the accompanying drawings, so as to fully understand the purpose, characteristics and effects of the present invention.

附图说明Description of drawings

图1示出本发明一实施例的架构示意图。FIG. 1 shows a schematic structural diagram of an embodiment of the present invention.

图2示出本发明一实施例中云平台部分架构示意图。FIG. 2 shows a schematic diagram of a partial architecture of a cloud platform in an embodiment of the present invention.

图3示出本发明一实施例中应用层控制、服务、交易三类应用关系图。FIG. 3 shows a relationship diagram of three types of applications of application layer control, service, and transaction in an embodiment of the present invention.

图4示出本发明针对园区开放式能源互联网共享服务平台逻辑架构设计示例。FIG. 4 shows an example of the logical architecture design of the open energy internet sharing service platform for the park according to the present invention.

具体实施方式Detailed ways

实施例Example

如图1所示，一种面向能源互联网的综合能源管控系统，包含终端层、通信层、平台层和应用层；As shown in Figure 1, a comprehensive energy management and control system for the energy Internet includes a terminal layer, a communication layer, a platform layer and an application layer;

所述终端层针对每一物理能源均部署相应的智能终端；每一所述智能终端均用于实现对相应的所述物理能源的遥信数据、遥测数据、遥控数据、遥调数据和/或遥视数据的实时采集，为所述管控系统的数据分析与实时控制提供支撑；The terminal layer deploys a corresponding intelligent terminal for each physical energy source; each of the intelligent terminals is used to realize remote signaling data, telemetry data, remote control data, remote adjustment data and/or remote control data for the corresponding physical energy source. Real-time collection of remote viewing data provides support for data analysis and real-time control of the management and control system;

所述平台层包括若干云计算机，以及相应的机房基础设施、计算机网络、磁盘柜、服务器/虚拟机、操作系统、数据库、中间件和运行库；The platform layer includes several cloud computers, and corresponding computer room infrastructure, computer networks, disk cabinets, servers/virtual machines, operating systems, databases, middleware and runtime libraries;

所述平台层布置基础设施设备，用于实现所述平台的基础设施即服务层至所述平台的软件即服务层的建设；The platform layer arranges infrastructure equipment for realizing the construction of the infrastructure as a service layer of the platform to the software as a service layer of the platform;

所述平台层籍由将若干所述云计算机的计算资源进行池化的方式，满足所述管控系统具备快速的弹性计算、广泛的网络访问的功能，实现对软硬件资源库进行统一调度和管理；The platform layer pools the computing resources of several cloud computers, so that the management and control system has the functions of fast elastic computing and extensive network access, and realizes unified scheduling and management of software and hardware resource libraries. ;

所述平台层运用云计算、大数据、物联网、移动互联等新技术对所述终端层的智能终端所采集的电力、水流量、气流量等数据进行分析处理，为所述的应用层提供数据服务及基于数据的其他服务；The platform layer uses cloud computing, big data, Internet of Things, mobile Internet and other new technologies to analyze and process data such as power, water flow, air flow and other data collected by the intelligent terminals in the terminal layer, and provide the application layer. data services and other data-based services;

所述应用层根据所述用户在所述客户端界面访问使提交的需求向所述用户提供所述平台层的计算资源或者数据；The application layer provides computing resources or data of the platform layer to the user according to the requirements submitted by the user on the client interface;

所述终端层、所述平台层和所述应用层籍由所述通信层连接呈一体。The terminal layer, the platform layer and the application layer are connected and integrated by the communication layer.

本发明的原理在于，构建代表着物理能源数据采集、数据汇总处理、对外服务三层架构的终端层、平台层和应用层，并籍由通信层实现连接；The principle of the present invention is to construct a terminal layer, a platform layer and an application layer representing a three-layer architecture of physical energy data collection, data aggregation and processing, and external services, and realize the connection through the communication layer;

其中，终端层和通信层构建“横向多源互补，纵向源、网、荷、储协调”的综合能源物理系统，通过发挥电网枢纽作用促进冷、热、电、气等多网耦合及供需匹配，最终实现能源流的优化配置；Among them, the terminal layer and the communication layer build a comprehensive energy physical system with "horizontal multi-source complementarity, vertical source, grid, load and storage coordination", and promote the coupling of cooling, heating, electricity, gas and other multi-grid and supply and demand matching by playing the role of the power grid hub , and finally realize the optimal configuration of energy flow;

平台层和通信层利用物联网技术，通过各类终端和传感器、通信信息网络、能源互联网云端平台，最终实现信息流的高效联通；The platform layer and the communication layer use the Internet of Things technology, through various terminals and sensors, communication information network, energy Internet cloud platform, and finally realize the efficient connection of information flow;

应用层以终端层、平台层和通信层为依托，以“互联网+”模式开展控制类、服务类、交易类的各类高级应用业务，最终实现业务流的多元拓展。The application layer is based on the terminal layer, platform layer and communication layer, and carries out various advanced application services of control, service and transaction in the "Internet +" mode, and finally realizes the diversified expansion of business flow.

本发明的应用通过对能源生产、配置、消费、存储全过程、全系统的全景感知，实现区域内多种能源供需平衡和综合能效管理，提高能源使用效率；局域能源互联网以综合能源管控系统为载体，以数据优势、管理优势、技术优势为驱动，为用户提供能源全寿命周期的服务，构建多方参与、互利共赢的商业模式，提升综合能源使用的经济性、高效性、安全性、可靠性。The application of the invention realizes the balance of supply and demand of various energy sources and comprehensive energy efficiency management in the region through the panoramic perception of the whole process of energy production, configuration, consumption, storage, and the whole system, and improves energy use efficiency; As the carrier, driven by data advantages, management advantages and technical advantages, it provides users with services for the whole life cycle of energy, builds a multi-party participation, mutual benefit and win-win business model, and improves the economy, efficiency, safety, and efficiency of comprehensive energy use. reliability.

如图2所示，在某些实施例中，所述平台层包括物理设施层、虚拟资源层、数据服务网、基础功能层；As shown in FIG. 2, in some embodiments, the platform layer includes a physical facility layer, a virtual resource layer, a data service network, and a basic function layer;

所述物理设施层包括机房基础建设、计算机网络构建、存储设备、服务器设备；The physical facility layer includes computer room infrastructure, computer network construction, storage equipment, and server equipment;

所述虚拟资源层包括配置云管理工具和硬件资源，形成包括计算、存储和网络的资源池；The virtual resource layer includes configuring cloud management tools and hardware resources to form a resource pool including computing, storage and network;

所述数据服务网包括建立关系数据库、时序数据库和对象数据库；The data service network includes establishing a relational database, a time series database and an object database;

所述基础功能层包括构建相应的基础功能模块、中间件和者运行库。The basic function layer includes constructing corresponding basic function modules, middleware and runtime libraries.

在某些实施例中，所述物理设施层中存储体系包括逻辑盘卷管理、RBD/Glusterfs、日志文件系统、串口硬盘和/或固态硬盘；In some embodiments, the storage system in the physical facility layer includes logical disk volume management, RBD/Glusterfs, journaling file system, serial hard disk and/or solid state disk;

所述物理设施层中网络体系包括虚拟交换软件、Linux网桥、虚拟局域网、隧道网络。The network system in the physical facility layer includes virtual switching software, Linux network bridge, virtual local area network, and tunnel network.

在某些实施例中，所述智能终端包括控制终端、通信终端、计量终端和采集终端。In some embodiments, the intelligent terminal includes a control terminal, a communication terminal, a metering terminal and a collection terminal.

在某些实施例中，所述控制终端包括配电自动化终端、主动配电网终端、负控终端、远动终端、测控终端、保护终端、热网控制器、阀门控制器、气压控制器、报警控制器等设备；In some embodiments, the control terminals include distribution automation terminals, active distribution network terminals, negative control terminals, remote control terminals, measurement and control terminals, protection terminals, heat network controllers, valve controllers, air pressure controllers, Alarm controller and other equipment;

所述通信终端包括通信管理机、交换机、路由器、串口服务器、通信网关机、I/O管理终端等设备；The communication terminal includes a communication management machine, a switch, a router, a serial port server, a communication gateway machine, an I/O management terminal and other equipment;

所述计量终端包括电能表、水流量表、气体流量表、热量表、功率计量表等设备；The metering terminal includes electric energy meter, water flow meter, gas flow meter, heat meter, power meter and other equipment;

所述采集终端包括电能量采集装置、故障录波装置、数采仪、保护终端、温度传感器、湿度传感器、烟感传感器、热值仪、压力变送器、流量变送器、空调数据采集器、摄像头、气体探测器等设备。The acquisition terminal includes an electrical energy acquisition device, a fault recording device, a data acquisition instrument, a protection terminal, a temperature sensor, a humidity sensor, a smoke sensor, a calorific value meter, a pressure transmitter, a flow transmitter, and an air conditioner data collector. , cameras, gas detectors and other equipment.

在某些实施例中，所述物理能源包括变电站、发电机组、光伏发电风力发电、储能和/或气站。In certain embodiments, the physical energy sources include substations, generator sets, photovoltaics, wind power, energy storage, and/or gas stations.

在某些实施例中，若干所述智能终端分别包括控制终端、通信终端、计量终端和采集终端。In some embodiments, several of the smart terminals respectively include a control terminal, a communication terminal, a metering terminal and a collection terminal.

在某些实施例中，所述通信层包括通信网、互联网和/或物联网；所述通信网籍由光纤、以太网、4G网络和串口实现；所述互联网为Internet网；所述物联网包括NB-IOT网、Lora网、ZigBee网。In some embodiments, the communication layer includes a communication network, the Internet and/or the Internet of Things; the communication network is implemented by optical fibers, Ethernet, 4G networks and serial ports; the Internet is an Internet network; the Internet of Things Including NB-IOT network, Lora network, ZigBee network.

如图3所示，在某些实施例中，所述应用层以云平台的形式接收所述用户的需求，并根据用户的需求，将所述平台层的计算资源或者数据以控制类应用、交易类应用和/或服务类应用的形式提供给所述用户；As shown in FIG. 3 , in some embodiments, the application layer receives the user's requirement in the form of a cloud platform, and according to the user's requirement, converts the computing resources or data of the platform layer into control applications, Provided to the user in the form of transaction applications and/or service applications;

所述云平台与每一所述控制类应用、每一所述交易类应用和每一所述服务类应用之间均存在数据交互和功能调用；There is data interaction and function invocation between the cloud platform and each of the control applications, each of the transaction applications and each of the service applications;

每一所述控制类应用、每一所述交易类应用和每一所述服务类应用之间均存在数据交互。There is data interaction between each of the control applications, each of the transaction applications and each of the service applications.

在某些实施例中，还包括安全防护体系和信息标准体系。In some embodiments, a security protection system and an information standard system are also included.

如图4所示，一种适用于工业园区开放式能源互联网共享服务平台的架构示例，基于此架构的共享服务平台可以实现为政府提供政府能效全景应用服务，为企业提供企业能效监测分析、综合能源管理应用服务，为能源厂商和用户提供综合能源线上商城应用，为社会公众提供社会公共服务应用。As shown in Figure 4, an example of an architecture suitable for an open energy Internet shared service platform in an industrial park, a shared service platform based on this architecture can provide the government with panoramic application services of government energy efficiency, and provide enterprises with enterprise energy efficiency monitoring, analysis, comprehensive Energy management application services, providing comprehensive energy online mall applications for energy manufacturers and users, and social public service applications for the public.

以上详细描述了本发明的较佳具体实施例。应当理解，本领域的普通技术人员无需创造性劳动就可以根据本发明的构思做出诸多修改和变化。因此，凡本技术领域中技术人员依本发明的构思在现有技术的基础上通过逻辑分析、推理或者有限的实验可以得到的技术方案，皆应在由权利要求书所确定的保护范围内。The preferred embodiments of the present invention have been described in detail above. It should be understood that those skilled in the art can make many modifications and changes according to the concept of the present invention without creative efforts. Therefore, any technical solutions that can be obtained by those skilled in the art through logical analysis, reasoning or limited experiments on the basis of the prior art according to the concept of the present invention shall fall within the protection scope determined by the claims.

Claims (10)

1. a kind of comprehensive energy managing and control system towards energy internet, which is characterized in that include terminating layer, communication layers, platformLayer and application layer；

The terminating layer disposes corresponding intelligent terminal for each physical energy；Each intelligent terminal is used to realizeTo the real-time of the remote signalling data of the corresponding physical energy, telemetry, remote-control data, remote regulating data and/or remote viewing dataAcquisition provides support with real-time control for the data analysis of the managing and control system；

The podium level includes several cloud computers, and corresponding computer room infrastructure, computer network, disk chassis, serviceDevice/virtual machine, operating system, database, middleware and Runtime Library；

The platform layer arrangement infrastructure equipment, for realizing the platform infrastructure, that is, service layer to the platformThe construction of software, that is, service layer；

The podium level nationality is by meeting the managing and control system for the mode in the computing resource progress pond of several cloud computersHave the function of quick elastic calculation, the access of extensive network, realizes and United Dispatching and management are carried out to software and hardware resources library；

The podium level is with new technologies such as cloud computing, big data, Internet of Things, mobile interchanges to the intelligent terminal of the terminating layerThe data such as electric power collected, water flow, throughput are analyzed and processed, and are provided data service for the application layer and are based onOther services of data；

The application layer makes the demand submitted to described in user offer according to the user in client end interface accessThe computing resource or data of podium level；

The terminating layer, the podium level and the application layer nationality are connected by the communication layers in one.

2. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that describedPodium level includes physical facility layer, virtual resource layer, data service net, basic function layer；

The physical facility layer includes computer room infrastructure, computer network building, storage equipment, server apparatus；

The virtual resource layer includes configuration cloud management tool and hardware resource, is formed including calculating, the resource of storage and networkPond；

The data service net includes opening relationships database, time series database and object database；

The basic function layer includes constructing corresponding fundamental functional modules, middleware and person's Runtime Library.

3. a kind of comprehensive energy managing and control system towards energy internet according to claim 2, which is characterized in that describedIn physical facility layer storage system include Logical Disk volume management, RBD/Glusterfs, log file system, serial port hard disk and/orSolid state hard disk；

The network system includes virtual switch software, Linux bridge, virtual LAN, tunneled network in the physical facility layer.

4. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that describedIntelligent terminal includes controlling terminal, communication terminal, measuring terminal and acquisition terminal.

5. a kind of comprehensive energy managing and control system towards energy internet according to claim 4, which is characterized in that describedControlling terminal includes distribution power automation terminal, active distribution network terminal, negative control terminal, remote terminal unit, detection and control terminal, protects eventuallyThe equipment such as end, heating network control device, valve positioner, gas pressure regulator, alarm controller；

The communication terminal includes communication processor, interchanger, router, serial server, communication network is shut down, I/O is managed eventuallyThe equipment such as end；

The measuring terminal includes the equipment such as electric energy meter, water flowmeter, gas flow meter, calorimeter, power meter scale；

The acquisition terminal includes that electrical energy collecting device, fault wave recording device, number adopt instrument, protection terminal, temperature sensor, wetSensor, cigarette propagated sensation sensor, caloric value instrument, pressure transmitter, flow transmitter, air-conditioning data collector, camera, gas is spent to visitSurvey the equipment such as device.

6. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that describedPhysical energy includes substation, generating set, photovoltaic power generation wind-power electricity generation, energy storage and/or gas station.

7. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that severalThe intelligent terminal respectively includes controlling terminal, communication terminal, measuring terminal and acquisition terminal.

8. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that describedCommunication layers include communication network, internet and/or Internet of Things；The communication network nationality is real by optical fiber, Ethernet, 4G network and serial portsIt is existing；The internet is Internet；The Internet of Things includes NB-IOT net, Lora net, ZigBee net.

9. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that describedApplication layer receives the demand of the user in the form of cloud platform, and according to the demand of user, and the calculating of the podium level is providedSource or data are applied with controlling class, the form that transaction class is applied and/or service class is applied is supplied to the user；

Between the cloud platform and each control class application, each transaction class application and each service class applicationThere is data interaction and funcall；

There is data friendship between each control class application, each transaction class application and each service class applicationMutually.

10. a kind of comprehensive energy managing and control system towards energy internet according to claim 1, which is characterized in that alsoIncluding security protection system and information standard system.