CN114400778A - Integrated information platform of intelligent substation and use method thereof - Google Patents

Abstract

The invention relates to the technical field of intelligent substation electrical secondary design, in particular to an intelligent substation integrated information platform and a use method thereof; the system comprises a first safety area and a second safety area, wherein an isolation module is arranged on a communication link between the first safety area and the second safety area, a central control system, a video monitoring subsystem, a three-dimensional animation model subsystem and a black box subsystem are arranged in the first safety area, a fire protection subsystem, an environment monitoring subsystem, a routing inspection subsystem, an equipment state acquisition subsystem and a security subsystem are arranged in the second safety area, the isolation module comprises a forward isolation device and a reverse isolation device, the data transmission direction of the forward isolation device is from the first safety area to the second safety area, and the data transmission direction of the reverse isolation device is from the second safety area to the first safety area; the invention can effectively solve the problems of information isolated island, limited monitoring capability and the like in the prior art.

Description

Integrated information platform of intelligent substation and use method thereof

Technical Field

The invention relates to the technical field of intelligent substation electrical secondary design, in particular to an intelligent substation integrated information platform and a use method thereof.

Background

At present, some domestic intelligent power grid companies partially implement video monitoring, environment monitoring, anti-theft alarming and fire-fighting systems, but most of the systems are implemented step by step and in batches, the systems operate independently, even each set of system needs independent management personnel, comprehensive monitoring and centralized management of multiple systems are difficult to achieve, the efficiency of the systems is invisibly reduced, and the management and maintenance costs of the systems are increased.

When the existing intelligent substation auxiliary system comprehensive monitoring platform is used, most of the existing intelligent substation auxiliary system comprehensive monitoring platforms are only monitoring isolated islands which operate independently, and real-time monitoring on environments such as temperature, humidity, water, electricity and gas is lacked, so that linkage and accident prevention can not be carried out, and therefore vast power enterprises need to carry out intelligent transformation and upgrading on the intelligent substation auxiliary system comprehensive monitoring platform urgently.

Therefore, an integrated information platform of an intelligent substation and a using method thereof are provided to solve the problems.

Disclosure of Invention

The present invention is directed to solving the problems of the prior art, and the problems set forth in the background above.

In order to achieve the purpose, the invention adopts the following technical scheme: an integrated information platform of an intelligent substation comprises a first safety zone and a second safety zone, wherein an isolation module is arranged on a communication link between the first safety zone and the second safety zone;

a central control system, a video monitoring subsystem, a three-dimensional animation model subsystem and a black box subsystem are arranged in the first safety area;

and a fire-fighting subsystem, an environment monitoring subsystem, a patrol subsystem, an equipment state acquisition subsystem and a security subsystem are arranged in the second safety area.

Furthermore, the isolation module comprises a forward isolation device and a reverse isolation device, the data transmission direction of the forward isolation device is from the first safety zone to the second safety zone, and the data transmission direction of the reverse isolation device is from the second safety zone to the first safety zone.

Furthermore, the central control system is used for collecting the state information of all subsystems and equipment in the substation, and is also used for scheduling the working states of all the subsystems and equipment in the substation;

the video monitoring subsystem is installed in the central control system in an embedded mode and comprises cameras installed at all point positions in the transformer substation and a first display screen arranged in the central control room, and the first display screen displays pictures shot by the cameras in real time;

the three-dimensional animation model subsystem is embedded in the central control system and is output on a second display screen in the central control room;

the black box system is installed in the central control system in an embedded mode, and the black box system records state information of all systems and equipment in the transformer substation in real time and records operation steps of power station workers in real time.

Furthermore, the first display screen is formed by combining a plurality of displays; all corners in the substation are under surveillance by the video surveillance subsystem.

Furthermore, the three-dimensional animation model subsystem is constructed based on a one-to-one real structure of the transformer substation, and the state of the transformer substation model output by the three-dimensional animation model subsystem on the second display screen is the same as the real state of the transformer substation.

Furthermore, the fire-fighting subsystem collects alarm point location information, fault information, self-checking information, operation conditions, action information of fire-fighting equipment and the like of each piece of fire-fighting equipment in real time;

the data objects collected by the environment monitoring subsystem comprise outdoor microclimate data such as temperature, humidity, rainfall, wind speed and wind direction and indoor data such as temperature, humidity, cable trench water immersion state and water level of a water collecting well;

the inspection subsystem is an intelligent robot running in the transformer substation, and wireless communication is realized between the intelligent robot and the central control system through a safety channel;

data objects acquired by the equipment state acquisition subsystem comprise an oil chromatograph, iron core grounding current, a lightning arrester, SF6 gas and partial discharge;

the security subsystem is installed in the central control system in an embedded mode and comprises an access control module and a data anti-intrusion module.

Furthermore, the intelligent robot has the function of freely switching trackless navigation and track navigation, and a camera and a plurality of sensors are carried on the intelligent robot.

Further, the identification unit of the access control module includes, but is not limited to, a password disk, a magnetic card, a radio frequency card, a biometric identification, and the like.

Furthermore, the central control systems of different substations realize information sharing through a block chain.

A use method of an integrated information platform of an intelligent substation comprises the following steps:

s1, monitoring the states of all systems and equipment in the transformer substation in real time by the video monitoring subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem, collecting the states to the central control system, and outputting the states on the first display screen and the second display screen in real time;

s2, in the step S1, the black box system records the historical data of the central control system, the video monitoring subsystem, the three-dimensional animation model subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem in real time, and also records the operation records and the call records of the staff in the central control room;

s3, when a fault occurs in the transformer substation, the first display screen and the second display screen both display a fault point and a fault category;

and S4, the central control system analyzes the fault types and gives an automatic or manual inspection instruction.

Compared with the prior art, the invention has the advantages and positive effects that:

1. the invention realizes the central control system, the video monitoring subsystem, the intelligent control system, the power distribution system and the like in the links of power generation, power distribution, power transformation and the like of a power grid through the comprehensive integration by taking the 'integrated integration and intelligent control' as the core,

The integrated optimization of the functions of the fire-fighting subsystem, the environment monitoring subsystem, the routing inspection subsystem, the equipment state acquisition subsystem, the security subsystem and the like is realized, the unified access, unified storage and unified display of data information of the whole station are realized, the services of operation monitoring, operation and control, comprehensive information analysis, intelligent alarm, operation management and the like are realized, many-to-many intelligent linkage control can be realized among the subsystems, the formation of an information island is avoided, the repeated investment is avoided, the workload of management and maintenance is reduced, and the operation cost is saved. Therefore, all-weather state monitoring and intelligent control on main electrical equipment, key equipment installation places and surrounding environments of the transformer substation are achieved, and the requirement of safe production of the intelligent transformer substation is met.

2. According to the invention, the panoramic display of the data of the transformer substation is realized by arranging the three-dimensional animation model subsystem, the seamless embedding among systems of various manufacturers is realized, the quick response capability to the critical state of the power system is enhanced, and the unified interaction and sharing of information are realized; the intelligent alarm system can carry out intelligent alarm operation, provide corresponding forecast information or reasons, description and processing modes of accident types when equipment is abnormal or fails, assist operation and maintenance personnel in judgment and process in time; in addition, advanced application of video analysis is adopted, the obtained video images are analyzed and distinguished, manpower inspection and field control are reduced, and control quality and operation and maintenance efficiency are improved. Therefore, the integrated cooperative linkage of each subsystem and equipment of the transformer substation is realized, the system architecture is optimized, the number of transmission layers in the middle of data information is reduced, the overall reliability of the system is improved, and the cost is saved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a video monitoring subsystem according to the present invention.

Fig. 3 is a schematic view of information interaction between 6 central control systems according to the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

The integrated information platform of the intelligent substation of the embodiment refers to fig. 1 to 3: the system comprises a first safety area and a second safety area, wherein an isolation module is arranged on a communication link between the first safety area and the second safety area.

The isolation module comprises a forward isolation device and a reverse isolation device, the data transmission direction of the forward isolation device is from the first safety zone to the second safety zone, and the data transmission direction of the reverse isolation device is from the second safety zone to the first safety zone.

The isolation device module is used for safely transmitting data information between the first safety area and the second safety area.

The functions of the forward isolation device include, but are not limited to: firstly, safe data exchange in a non-network mode between a first safe area and a second safe area is realized, and the fact that an inner processing system and an outer processing system of a safety isolation device are not communicated at the same time is guaranteed; the working mode is transparent, the IP address of the host is virtual, and the MAC address is hidden; comprehensive message filtering and access control based on MAC, IP, transmission protocol, transmission port and communication direction; fourthly, NAT is supported; penetration prevention TCP connection: the TCP connection is forbidden to be directly established between the two application gateways of the internal network and the external network, the internal network card and the external network card of the isolation device are in non-network connection inside the device, and only the unidirectional transmission of data is allowed to be realized in a physical mode.

The reverse isolation device has functions including the functions of the forward isolation device, and further includes: firstly, a data transmitting end in a second safety area signs a signature on data to be transmitted and then transmits the signature to a reverse isolation device; after receiving the data, the reverse isolation device performs signature verification, and performs content filtering, validity checking and other processing on the data; and thirdly, the reverse isolation device forwards the processed data to a receiving program in the first safety zone.

The first safety area is provided with a central control system, a video monitoring subsystem, a three-dimensional animation model subsystem and a black box subsystem.

(1) The central control system is used for collecting the state information of all the subsystems and equipment in the transformer substation, and is also used for scheduling the working states of all the subsystems and equipment in the transformer substation.

The central control system is installed in a server in a central control room, and the central control systems of different substations realize information sharing through a blockchain, because the blockchain has high security (the blockchain adopts a decentralized distributed recording mode, each node in the system simultaneously participates in data change recording, each node keeps an identical and complete data sample, a single node is destroyed and cannot influence the integrity of the whole sample and the record, the security of the data is greatly improved), high transparency (a public blockchain system is open, all nodes with maintenance function are commonly maintained, except that private information of each transaction party is encrypted, any person can inquire the blockchain data and develop related applications through a public interface, so that the information of the whole system is highly transparent), and high autonomy (the blockchain adopts a standard and a protocol (such as a set algorithm) based on negotiation consistency), the method has the advantages that each participant can freely and safely transact in an environment without trusting any person, the trust of people in the past is changed into the trust of machine algorithm, the elimination of man-made interference factors is highly autonomous), and the property of non-tampering (once the information is verified and added to a block chain, the information is permanently stored, a data record which is marked according to the time sequence and is difficult to tamper is generated, the traceability of data can be ensured, and the condition that different node data at different time points are counterfeited can be greatly reduced).

(2) The video monitoring subsystem is installed in the central control system in an embedded mode and comprises cameras installed at all point positions in the transformer substation and a first display screen arranged in the central control room, and the first display screen displays pictures shot by the cameras in real time.

It is worth noting that: the first display screen is formed by combining a plurality of displays; all corners in the substation are under surveillance by the video surveillance subsystem.

(3) The three-dimensional animation model subsystem is embedded in the central control system, and the three-dimensional animation model subsystem is output on a second display screen in the central control room.

It is worth noting that: the three-dimensional animation model subsystem is constructed based on a one-to-one real structure of the transformer substation, and the transformer substation model state output by the three-dimensional animation model subsystem on the second display screen is the same as the real state of the transformer substation. Therefore, workers in the transformer substation can clearly and intuitively know the working states of all subsystems and equipment through the three-dimensional animation model of the transformer substation output on the second display screen.

(4) The black box system is embedded in the central control system and records the state information of all systems and equipment in the transformer substation in real time and records the operation steps of power station workers in real time. Therefore, operation and maintenance management personnel can analyze the data recorded in the black box system, so that the source of the fault reason is traced, and the targeted improvement can be performed in the later period.

And a fire-fighting subsystem, an environment monitoring subsystem, a patrol subsystem, an equipment state acquisition subsystem and a security subsystem are arranged in the second safety area.

(1) The fire-fighting subsystem collects alarm point position information, fault information, self-checking information, operation conditions, action information of fire-fighting equipment and the like of each fire-fighting equipment in real time.

Because the fire-fighting subsystem has the self-checking function, workers can view the fire-fighting subsystem in the central control room in real time in a centralized manner without checking on the spot, the labor cost is greatly reduced, and the content and frequency of operation and maintenance are greatly improved.

(2) The data objects collected by the environment monitoring subsystem comprise microclimate data such as outdoor temperature, humidity, rainfall, wind speed and wind direction and data such as indoor temperature, humidity, cable trench water immersion state and water level of a water collecting well.

Therefore, the central control system can detect the environmental conditions around the transformer substation through the environment detection subsystem, so as to determine whether the starting of the air conditioner, the fan, the dryer and other equipment in the transformer substation is required to be started or not, and ensure the safe operation of each equipment in the transformer substation.

(3) The inspection subsystem is an intelligent robot running in the transformer substation, and wireless communication is realized between the intelligent robot and the central control system through a safety channel.

It is worth noting that: the intelligent robot has the functions of freely switching trackless navigation and track navigation, and a camera and a plurality of sensors are carried on the intelligent robot.

The reason is that in order to ensure the stable operation of the transformer substation, the inspection of each electrical device in the transformer substation is impossible, inspection is performed for many times a day, each inspection needs to be carried out for at least one hour, and the problems of fatigue, doze and the like of operation and maintenance personnel can be caused particularly at night, so that hidden dangers can not be eliminated.

According to the intelligent robot, the intelligent robot can replace manual work to realize remote routine inspection, can realize special inspection and customized inspection tasks under accidents and special conditions, realize remote online monitoring, greatly improve the content and frequency of operation and maintenance while reducing manual work, change the traditional operation and maintenance mode, realize operation and maintenance intellectualization, and can independently complete the inspection task through a temperature measurement thermal imager and by adopting a visual identification technology, locally store high-capacity camera shooting content, store seamless synchronous cloud, and intelligently inspect and analyze. In addition, the intelligent robot can automatically upload inspection data to an asset system, manual export transmission links are omitted, closed-loop circulation of operation data in an asset management system is realized in an all-round mode, automatic import and comparison are carried out, in addition, in a central control system, even if the robot can be given instructions in thousands of miles, and information such as pictures, images and data collected by the robot is received.

(4) Data objects collected by the equipment state collection subsystem comprise an oil chromatogram (temperature of cooling oil in the transformer), an iron core grounding current (grounding state of the transformer), a lightning arrester (total current on the lightning arrester, resistance current, action times and the like), SF6 gas (pressure and density of SF6 gas, and micro-water content of SF6 gas) and partial discharge.

(5) The security subsystem is installed in a central control system in an embedded mode and comprises an entrance guard module and a data anti-intrusion module.

It is worth noting that: the identification unit of the entrance guard module comprises but is not limited to a password disk, a magnetic card, a radio frequency card, biological identification and the like, wherein the entrance guard module further comprises a physical anti-intrusion unit, the physical anti-intrusion unit collects the defense deployment states of an electronic fence, infrared correlation and infrared double-technology, and the entrance guard module has the function of sending information such as defense area alarm, fault alarm and the like.

A use method of an integrated information platform of an intelligent substation comprises the following steps:

and S1, the video monitoring subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem monitor the states of all systems and equipment in the transformer substation in real time, gather the states to the central control system, and output the states on the first display screen and the second display screen in real time.

And S2, in the step S1, the black box system records the historical data of the central control system, the video monitoring subsystem, the three-dimensional animation model subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem in real time, and also records the operation records and the call records of the staff in the central control room.

And S3, when the fault occurs in the substation, the first display screen and the second display screen both display the fault point and the fault category.

And S4, the central control system analyzes the fault types and gives an automatic or manual inspection instruction.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (10)

1. The utility model provides an intelligent substation integration information platform which characterized in that: the system comprises a first safety area and a second safety area, wherein an isolation module is arranged on a communication link between the first safety area and the second safety area;

a central control system, a video monitoring subsystem, a three-dimensional animation model subsystem and a black box subsystem are arranged in the first safety area;

and a fire-fighting subsystem, an environment monitoring subsystem, a patrol subsystem, an equipment state acquisition subsystem and a security subsystem are arranged in the second safety area.

2. The integrated information platform of an intelligent substation according to claim 1, wherein the isolation module comprises a forward isolation device and a reverse isolation device, the data transmission direction of the forward isolation device is from the first safety zone to the second safety zone, and the data transmission direction of the reverse isolation device is from the second safety zone to the first safety zone.

3. The integrated information platform of the intelligent substation of claim 1, wherein the central control system is used for collecting the state information of all subsystems and equipment in the substation, and is also used for scheduling the working states of all subsystems and equipment in the substation;

the video monitoring subsystem is installed in the central control system in an embedded mode and comprises cameras installed at all point positions in the transformer substation and a first display screen arranged in the central control room, and the first display screen displays pictures shot by the cameras in real time;

the three-dimensional animation model subsystem is embedded in the central control system and is output on a second display screen in the central control room;

the black box system is installed in the central control system in an embedded mode, and the black box system records state information of all systems and equipment in the transformer substation in real time and records operation steps of power station workers in real time.

4. The integrated information platform of an intelligent substation according to claim 3, wherein the first display screen is formed by combining a plurality of displays; all corners in the substation are under surveillance by the video surveillance subsystem.

5. The integrated information platform of the intelligent substation according to claim 3, wherein the three-dimensional animation model subsystem is constructed based on a one-to-one real structure of the substation, and the state of the substation model output by the three-dimensional animation model subsystem on the second display screen is the same as the real state of the substation.

6. The integrated information platform of an intelligent substation according to claim 1, wherein the fire protection subsystem collects alarm point location information, fault information, self-checking information, operation conditions, action information of fire extinguishing equipment and the like of each fire protection equipment in real time;

the data objects collected by the environment monitoring subsystem comprise outdoor microclimate data such as temperature, humidity, rainfall, wind speed and wind direction and indoor data such as temperature, humidity, cable trench water immersion state and water level of a water collecting well;

the inspection subsystem is an intelligent robot running in the transformer substation, and wireless communication is realized between the intelligent robot and the central control system through a safety channel;

data objects acquired by the equipment state acquisition subsystem comprise an oil chromatograph, iron core grounding current, a lightning arrester, SF6 gas and partial discharge;

the security subsystem is installed in the central control system in an embedded mode and comprises an access control module and a data anti-intrusion module.

7. The integrated information platform of an intelligent substation according to claim 6, wherein the intelligent robot has a function of freely switching between trackless navigation and trajectory navigation, and the intelligent robot carries a camera and a plurality of sensors.

8. An intelligent substation integration information platform according to claim 6, wherein the identification unit of the access control module includes but is not limited to a password disk, a magnetic card, a radio frequency card, and a biological identification.

9. The integrated information platform of the intelligent substation according to claim 1, wherein the central control systems of different substations are shared by a block chain.

10. The use method of the integrated information platform of the intelligent substation according to any one of claims 1 to 9, characterized by comprising the following steps:

s1, monitoring the states of all systems and equipment in the transformer substation in real time by the video monitoring subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem, collecting the states to the central control system, and outputting the states on the first display screen and the second display screen in real time;

s2, in the step S1, the black box system records the historical data of the central control system, the video monitoring subsystem, the three-dimensional animation model subsystem, the fire fighting subsystem, the environment monitoring subsystem, the inspection subsystem, the equipment state acquisition subsystem and the security subsystem in real time, and also records the operation records and the call records of the staff in the central control room;

s3, when a fault occurs in the transformer substation, the first display screen and the second display screen both display a fault point and a fault category;

and S4, the central control system analyzes the fault types and gives an automatic or manual inspection instruction.

Images