CN213092359U

CN213092359U - New energy information safety acquisition system of cross-network gate

Info

Publication number: CN213092359U
Application number: CN202022349367.8U
Authority: CN
Inventors: 张武军; 程远林; 张舒; 向佳炜; 廖兴炜; 欧阳青; 钟祺; 周捷
Original assignee: China Energy Engineering Group Hunan Electric Power Design Institute Co Ltd
Current assignee: China Energy Engineering Group Hunan Electric Power Design Institute Co Ltd
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2021-04-30
Anticipated expiration: 2030-10-21

Abstract

A new energy information safety acquisition system of a cross-network gate comprises a data acquisition end, a safety communication end and a service application end, wherein the data acquisition end and the service application end are arranged in different network environments, and the safety communication layer is connected with the data acquisition end and the service application end; the data acquisition end is a data acquisition device of the system and at least comprises a sensor device connected with at least one new energy power generation device; the safety communication end is a data transmission device of the system and at least comprises a network safety device; the service application terminal is a data application device of the system and comprises a database server, an application server and a visual terminal device. The utility model can timely and efficiently acquire the data required by the unit operation monitoring, and can provide a safe and stable data transmission scheme; the multi-equipment display can be realized, and the requirements of various channels on various layers of the whole society on new energy information are met.

Description

New energy information safety acquisition system of cross-network gate

Technical Field

The utility model relates to an information acquisition system, concretely relates to new forms of energy information security collection system of cross-net floodgate.

Background

In recent years, with the transformation of energy structures, new energy resources such as wind power, photovoltaic and the like of various provinces are rapidly developed from scratch, the proportion of the new energy resources in an energy production structure is continuously increased, and due to the fact that the output of the new energy resources has the characteristics of volatility, randomness and the like, production scheduling of the energy industry is difficult, large impact is caused on the stability of an energy system, the problems of limited development of new energy resources, prominent new energy consumption bottleneck, weak industry core competitiveness and the like begin to gradually appear. Meanwhile, the existing data acquisition work of new energy enterprises mainly takes year-month-day statistical data, and the acquisition of real-time data of each unit is lacked, so that the value of the real-time data generated by the new energy enterprises is not valued and mined, and a unified, safe and standard data acquisition system is needed to be established to comprehensively acquire the new energy information data, so that various problems in the development of new energy are solved.

Disclosure of Invention

The utility model aims to solve the technical problem that, overcome prior art not enough, provide one kind can real-time supervision analysis new forms of energy information, satisfy each layer in the face of the visual demand of new forms of energy information, improve daily new forms of energy operation monitoring management work efficiency's new forms of energy information security collection system of crossing the net floodgate.

The technical scheme that the utility model solves the technical problem adopts is that, a new energy information security acquisition system of cross-network brake, including data acquisition end, safe communication end and service application end, the data acquisition end and service application end locate under different network environment, the safe communication layer connects data acquisition end and service application end;

the data acquisition end is a data acquisition device of the system, at least comprises a sensor device connected with at least one new energy power generation device, and is used for acquiring real-time data of the new energy power generation device during operation;

the safety communication end is a data transmission device of the system and at least comprises a network safety device which is used for configuring a safety strategy of data transmission among different networks;

the service application end is a data application device of the system, at least comprises a database server, an application server and a visual terminal device, and is used for processing and displaying new energy information data.

Further, the sensor equipment comprises a temperature sensor, an illumination sensor, a wind speed sensor and an electric quantity sensor; the new energy power generation equipment comprises a wind generating set, a solar generating set, a waste incineration generating set and a biomass generating set.

Further, the network security device includes a first security device and a second security device, the first security device is used for setting a network private line of the private access link, and the second security device is used for setting an isolation gatekeeper of the security policy.

Further, the new energy information data comprises first information data and second information data, the first information data is used for recording real-time data of the new energy power generation equipment, and the second information data is used for recording project data of the new energy power generation equipment.

Further, the temperature sensor is a thermistor; the illumination sensor is a photoelectric conversion module; the wind speed sensor is an ultrasonic wind speed sensor.

Further, the visual terminal device comprises a mobile phone, a special large screen and a computer display screen.

Furthermore, the different networks comprise a first network and a second network, the data acquisition end is positioned in the first network, and the service application end is positioned in the second network.

Compared with the prior art, the utility model discloses the advantage as follows: the method comprises the following steps of collecting real-time data of unit equipment operation by using a sensor, and timely and efficiently acquiring data required by unit operation monitoring; a security strategy is configured by adopting a network special line and an isolation gatekeeper, and a safe and stable data transmission scheme is provided; the relational database and the geographic information database are used as databases for storage, so that a large amount of data can be quickly accessed, and the map module can be visually displayed in detail; the visual effect of the mobile phone, the special large screen and the multi-terminal equipment on the computer are designed, multi-equipment display is realized, and the requirements of various channels on various social layers on new energy information are met.

Drawings

Fig. 1 is a wire frame diagram of an embodiment of the present invention.

In the figure: 1. the system comprises a data acquisition end, 2 a safety communication end, 2-1 an isolation network gate, 3 a service application end, 3-1 a database server, 3-2 an application server, 3-3 a visual terminal, 4 a first network, 5 a second network, 6 a data sensor and 7 new energy power generation equipment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Referring to fig. 1, the present embodiment includes a data acquisition end 1, a secure communication end 2, and a service application end 3. The data acquisition terminal 1 and the service application terminal 3 are arranged in different network environments, the data acquisition terminal 1 is arranged in a first network 4, the service application terminal 3 is arranged in a second network 5, the safety communication layer 2 is connected with the data acquisition terminal 1 and the service application terminal 3, and the safety communication layer 2 establishes safety transmission of data between different networks.

The data acquisition end 1 is provided with one or more data sensors 6 for acquiring real-time data of one or more new energy power generation equipment 7, and different sensors 6 are arranged aiming at different new energy power generation equipment 7 and comprise a temperature sensor, an illumination sensor, a wind speed sensor, an electric quantity sensor and the like. The temperature sensor adopts a thermistor; the illumination sensor 6-2 adopts a photoelectric conversion module, the module converts illumination intensity into voltage, and the voltage is converted into 0-2V or 4-20 mA through a conditioning circuit and is transmitted to a control system; the wind speed sensor adopts an ultrasonic module, and the module measures and calculates the wind speed by using a time difference method; the electric quantity sensor adopts an electromagnetic voltage transformer, a capacitor voltage transformer, an electromagnetic current transformer and the like. In addition, the acquisition of real-time data by each data sensor 6 can realize second-level frequency acquisition.

The secure communication terminal 2 is located between the first network 4 and the second network 5, and is used for establishing a data transmission link between the two different networks and configuring a physically isolated security policy. The network special line is formed by establishing a special link after the operator lays wiring on site in each network management center, and meanwhile, two ends of the link are only reachable by the first network and the second network. The isolation network gate 2-1 is a green alliance SIESNX3 safety isolation device, is arranged between network special lines and is the only gateway for two-network communication. The isolation gatekeeper 2-1 adopts a SOCKET agent mechanism, the management object is a session, and different from a firewall packet filtering work mechanism, the isolation gatekeeper can solve the data exchange problem between different security domains, such as database synchronization, file transmission, cross-domain access and the like. The method comprises the following specific operations: selecting a proxy mode in an isolation gateway working mode, communicating five-tuple according to a first network 4 and a second network 5 when configuring a security policy, wherein the quintuple comprises a protocol, a source address, a source port number, a target address and a target port number, and defining the policy in an isolation object to use the target address and the target port number in the first step; secondly, adding server information, a protocol mode, a target port number and a mapping port number in an application strategy; thirdly, setting an isolation mode to be effective in 24 hours; fourthly, defining a security channel required by the strategy from an external network to an internal network; and fifthly, selecting configured information and confirming, and setting isolation as permission and taking effect immediately.

The service application end 3 is provided with at least one database server 3-1 for storing new energy information data. New forms of energy information includes new forms of energy real-time data and project data, the utility model discloses an Oracle construction system database Server adopts ArcGIS SDE as the storage system in spatial database, and what the deployment adopted is Windows Server 2008 operating system, ensures in addition that port access is stable between each Server, establishes special backup mechanism simultaneously and backs up the database.

The service application 3 sets at least one application server 3-2 for publishing the visual application. The application server adopts an enterprise-level J2EE system Web development framework based on JAVA JDK under a Java platform, the background service adopts a system framework based on MVC, and the front end adopts an EXT development framework. And further optimizing the visualization effect by using components such as FineBI, Echarts and the like on the front-end page display.

The service application end 3 is provided with at least one visual terminal 3-3 device for visually displaying the new energy data. The utility model discloses three kinds of terminal equipment including cell-phone, special big screen and computer display screen have been set up. Mobile phone screens with different resolutions can be automatically adapted to mobile phones with different models for display; the special large-screen terminal is provided with a Haixin S6 laser display screen, and the maximum resolution can support 4K (3840 × 2160) display; the display can be automatically adapted to different resolutions for different computer display screens.

Various modifications and variations of the present invention may be made by those skilled in the art, and they are still within the scope of the present invention, provided they are within the scope of the claims and their equivalents.

What is not described in detail in the specification is prior art that is well known to those skilled in the art.

Claims

1. The utility model provides a new forms of energy information security collection system of cross-network gate which characterized in that: the system comprises a data acquisition end, a safety communication end and a service application end, wherein the data acquisition end and the service application end are arranged in different network environments, and the safety communication layer is connected with the data acquisition end and the service application end;

2. The system according to claim 1, characterized in that: the sensor equipment comprises a temperature sensor, an illumination sensor, a wind speed sensor and an electric quantity sensor; the new energy power generation equipment comprises a wind generating set, a solar generating set, a waste incineration generating set and a biomass generating set.

3. The system for safely acquiring new energy information of the cross-gatekeeper according to claim 1 or 2, characterized in that: the network security equipment comprises first security equipment and second security equipment, wherein the first security equipment is used for setting a network special line of a special access link, and the second security equipment is used for setting an isolation gatekeeper of a security policy.

4. The system for safely acquiring new energy information of the cross-gatekeeper according to claim 1 or 2, wherein the new energy information data includes first information data and second information data, the first information data is used for recording real-time data of the new energy power generation equipment, and the second information data is used for recording project data of the new energy power generation equipment.

5. The system for safely acquiring new energy information of the cross-gatekeeper according to claim 3, wherein the new energy information data includes first information data and second information data, the first information data is used for recording real-time data of the new energy power generation equipment, and the second information data is used for recording project data of the new energy power generation equipment.

6. The system according to claim 2, characterized in that: the temperature sensor is a thermistor; the illumination sensor is a photoelectric conversion module; the wind speed sensor is an ultrasonic wind speed sensor.

7. The system for safely acquiring new energy information of the cross-gatekeeper according to claim 1 or 2, characterized in that: the visual terminal equipment comprises a mobile phone, a special large screen and a computer display screen.

8. The system according to claim 3, wherein the system comprises: the visual terminal equipment comprises a mobile phone, a special large screen and a computer display screen.

9. The system according to claim 1 or 2, wherein the different networks include a first network and a second network, the data acquisition end is located in the first network, and the service application end is located in the second network.