CN110932404B - Linkage matching method for one-key programming operation of subsystems - Google Patents

Abstract

The invention relates to a linkage matching method and system for one-key programming operation of subsystems. The invention is mainly matched with a dispatching automation platform and a one-key programming operation system, the one-key programming operation system integrates data such as remote measurement, remote signaling, on-line monitoring information and the like in a layering way, when the dispatching automation platform sends out operation work, the one-key programming operation system carries out linkage action on all subsystems in a work station, information related to work content is collected, integrated and fed back to the dispatching automation platform, and a site controllable equipment list is obtained after the data exchange, analysis and integration with the dispatching automation platform, and site unreliable equipment is independently listed. Before the operation ticket is issued, the site controllable equipment can be subjected to pre-instruction operation. And simultaneously, the data analyzed by the system is transferred to a person who is going to the field to work in an email or short message mode, and the situation of the field and the equipment can be more clearly known when the person does not arrive at the field.

Description

Linkage matching method for one-key programming operation of subsystems

Technical Field

The invention belongs to the technical field of remote intelligent control of an unattended transformer substation of an electric power system, and particularly relates to a linkage coordination method for one-key programmed operation of each subsystem.

Background

With the advancement of society, except for the transformer substation with high partial voltage level, the operation of most unattended transformer substations has been realized, and power supply enterprises throw a lot of intelligent systems (including electronic fence image monitoring, in-station line temperature measurement, unmanned aerial vehicle, line visible light monitoring, line infrared monitoring and the like) in the transformer substations. The devices can accurately collect and upload all data in the responsibility of the device function in real time. However, each system is independently operated, data is not exchanged, each device has an independent operation method, when the systems are required to be operated, personnel are required to be in the field to operate, when the operation is complex and accompanied by more operation control, and the logic is strong, the on-site personnel can face the problems of large operation amount, complex operation flow, low operation efficiency and the like. The serious problem is that the plant stations are widely distributed, and in the continuous development, the plant stations are increased more and more, and the increase of the plant stations and the increase of the number of the patrol operators are unmatched. The more and more smart devices are refined in the factory stations, the more and more complex operation is performed, the more and more kinds are used, the workload on the patrol operators is very large, and the more and more demanding are required on skills. Under the background, a complex system is needed, multiple subsystems are integrated, the multiple subsystems are simultaneously ordered, cooperatively matched, allocated resources and intelligently processed when needed, a final result covering multiple functions in multiple fields is finally obtained, and processed data can be automatically transmitted to various demand departments.

At present, the processing flow in the field of the factory station has the following defects:

1. the operator receives the instruction and issues the instructed work ticket, and the real-time condition of the station site cannot be known in the process.

2. After the operator arrives at the factory station, the operator can know the target point in detail after the preparation work such as arrangement of safety measures is finished.

3. After arriving at the site, the site situation is processed by combining the data, the operator with high technical experience is checked comprehensively, the efficiency is high, the operator with low new staff or skill experience level is checked incompletely, the leakage is easy, the time consumption is long, and the efficiency is low;

4. after the on-site situation is known, if the on-site situation can not be solved, the relevant departments are required to be contacted for carrying out the reaction situation, and other departments send vehicle personnel and tools thereof to the on-site for processing, so that a lot of manpower and material resources are wasted in the process.

5. At least two operation and maintenance personnel (one person for operation and one person for monitoring) and one driver are needed after the accident occurs in the transformer substation, the tripping frequency of the protection actions of each transformer substation is too high in thunderstorm season, the human resources are short, and the investment of human and material resources does not meet the requirement of lean operation and maintenance.

Therefore, how to overcome the defects of the prior art is a problem to be solved urgently in the technical field of remote intelligent control of an unattended transformer substation of a current power system.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides an automatic, intelligent and unmanned linkage coordination method for one-key programmed operation of each subsystem.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the linkage matching method for one-key programming operation of each subsystem comprises the following steps:

the dispatching automation platform is linked with the one-key programming operation system through a communication protocol interface, and when the dispatching automation platform receives an instruction, the one-key programming operation system links the automation equipment in the factory station to collect information of the position and equipment to be operated through the content received by the dispatching automation platform and reports the information;

the one-key programming operation system timely collects real-time weather conditions of the target plant station by utilizing the communication interface, and feeds the real-time weather conditions back to the dispatching automation platform in a form of a data table after programming treatment;

the one-key programming operation system is connected with the robot system, and when the transformer substation equipment fails, the one-key programming operation system receives equipment failure information and issues the failure information to the robot system to trigger linkage, so that the robot can patrol to a failure point;

the one-key programming operation system is connected with the video monitoring system, receives equipment fault information when equipment alarm signals occur, is linked with the video monitoring system, and is close to the plurality of cameras to check the basic conditions of the equipment;

the one-key programming operation system obtains remote signaling and remote measuring signals in the dispatching automation platform through an interface protocol, the system comprehensively analyzes and processes new data fed back by the robot and feedback data fed back by the monitoring system, and reliable switch and barrier gate switching-on and switching-off position information is obtained and reported to the dispatching automation platform.

Further, it is preferable that the acquired information includes an image, a position, a temperature.

Further, it is preferred that the real-time weather conditions include temperature, humidity and wind speed data.

Further, it is preferable that the inspection content includes temperature measurement, alarm, pressure abnormality, inspection abnormality, presence of oil leakage of the apparatus, and switch displacement.

Further, it is preferable that the device base case includes appearance and position.

The invention also provides a one-key programming operating system.

Further, preferably, the one-key programmed operating system is linked with each automation system and subsystem of the transformer substation to integrate multiple information, process and classify each system information data, and judge;

the one-key programmed operating system can integrate and process diversified information fed back by the remote control, remote signaling and monitoring system and display the information in layers; the processed and layered information is sent to a scheduling automation platform for sequential control operation;

the one-key programmed operating system dynamically controls a camera of the transformer substation by utilizing linkage of a robot and a video monitoring and automation system, so as to perform real-time monitoring and perfect judgment basis of in-place monitoring of opening and closing of the isolation disconnecting link, provide in-place signals which can be identified by the automation system, form standard automation signals and transmit the standard automation signals to the dispatching automation platform;

the one-key programmed operating system remotely controls a motor power supply of the isolating switch, remotely controls the video of the linkage isolating switch and the monitoring of the robot, judges the in-place opening and closing monitoring of the outdoor isolating switch through the video, the imaging of the robot and the pressure sensing of the outdoor isolating switch, and monitors and controls primary and secondary equipment of the transformer substation; after the operation of the power supply of the isolating switch motor is completed, transmitting a displacement signal of the power supply of the isolating switch motor to a video monitoring system through a dispatching automation platform, controlling a camera to be automatically positioned to a relevant preset point by the video monitoring system, and after the isolating switch is separated and combined, auxiliary judging whether the isolating switch is separated and combined in place according to a graphic situation simulation algorithm;

the one-key programming operation system realizes the visual overhaul guidance of the secondary devices such as measurement and control, protection, traveling wave and fault record through communication with the dispatching automation platform and the information-preserving main station, and simultaneously realizes the function of protecting the soft pressing plate to switch;

based on the interconnection and intercommunication of the production comprehensive management and control platform, the video monitoring system, the dispatching automation platform and the auxiliary monitoring system, the one-key programmed operating system automatically performs inspection on station equipment facilities in a one-key starting mode, the video monitoring system is used for collecting appearance pictures of the total station equipment, the equipment state is analyzed and judged in an automatic judging mode, a video inspection report is automatically generated, and the 4A system can be directly backfilled after inspection staff confirms the inspection;

the one-key programming operation system collects remote signaling, remote measuring signals and historical alarm information of equipment operation in a self-set time interval through the dispatching automation monitoring system;

the one-key programming operation system collects the running state and the protection action information of the protection device through the information protection system and the event record remote transmission system;

and the one-key programming operating system generates a one-key inspection report through the production comprehensive management and control platform.

Compared with the prior art, the invention has the beneficial effects that:

1. at present, a supporting system capable of realizing remote inspection for a transformer substation mainly comprises a video monitoring system, a robot system, a dispatching automation system, an auxiliary monitoring system and the like, but the systems are mutually independent, and data information is isolated, so that a good remote inspection supporting platform cannot be provided for operators, and the simple operation requirement of one-key accessibility is not met. Therefore, the invention carries out the bottom layer association of the system equipment based on the 4A asset equipment data, and aggregates the systems to carry out one-key programming operation on a platform which is convenient for operators to operate.

2. The operation method of each subsystem of the one-key programming intelligent linkage substation is low in cost and high in efficiency. The method is based on the interconnection and intercommunication of a production comprehensive management and control platform, a video monitoring system, a dispatching automation platform and an auxiliary monitoring system, a one-key programmed operating system automatically performs inspection on station equipment facilities in a one-key starting mode, the video monitoring system is used for collecting appearance pictures of all station equipment, the automatic judging mode is used for analyzing and judging the equipment state, a video inspection report is automatically generated, a 4A system can be directly backfilled after inspection staff confirms, and then linkage control of all subsystems is performed in a one-key linkage mode. The general inspection and special inspection of the transformer substation equipment are realized, a set of more intelligent, flexible and effective inspection method is provided for the unattended transformer substation, and the requirements of the current lean management and intelligent application of the power system are met.

3. The one-key programmed operation system utilizes the existing dispatching automation system, robot inspection system, video monitoring system, electronic fence monitoring system, fire-fighting monitoring system, water logging water level monitoring system, microclimate monitoring system, humiture monitoring system, air-conditioning control system, fan control system, SF6 and oxygen content monitoring system, intelligent lighting system, access control system and the like of the transformer substation to construct a linkage system of the transformer substation, and the linkage system configures the relation between each event and task and the linked system through a matrix, so that the complete and flexible configuration concept of linkage configuration is realized, and meanwhile, the configuration mode also reserves long-term planning for future expansion and program development.

4. The method solves the problems of inconsistent export modes of operation record source files of different subsystems, unfamiliar time and labor consumption of operators, and the full-automatic processing flow frees operation and maintenance personnel from simple, repeated and forgetful operation reporting flow and repeated training with unsatisfactory effect.

5. The intelligent internet of things platform transmits the protection action information and the monitoring operation information of each subsystem back to the one-key programming operation system in a filling mode according to a preset unified format, so that data recording errors caused by human factors are avoided, the accuracy and timeliness of data recording are ensured, and meanwhile, the backfilling efficiency is greatly improved.

6. The whole processing flow is unmanned, and the network security risk of the power grid system brought on production equipment such as a protection device, a fault wave recording device and the like and a production area network is avoided.

Drawings

FIG. 1 is a general workflow diagram of a one-touch programmed operating system;

FIG. 2 is a flow diagram of a one-touch programmed operating system linking auxiliary subsystems;

FIG. 3 is a linkage automation protection flow of a one-key programmed operating system;

FIG. 4 is a schematic diagram of the operating principle of a one-touch programmable operating system.

Detailed Description

The present invention will be described in further detail with reference to examples.

It will be appreciated by those skilled in the art that the following examples are illustrative of the present invention and should not be construed as limiting the scope of the invention. The specific techniques or conditions are not identified in the examples and are performed according to techniques or conditions described in the literature in this field or according to the product specifications. The materials or equipment used are conventional products available from commercial sources, not identified to the manufacturer.

The invention is mainly matched with a dispatching automation platform and a one-key programming operation system, the one-key programming operation system integrates data such as telemetry, remote signaling, on-line monitoring information and the like in a layering manner, when the dispatching automation platform sends out operation work, the one-key programming operation system carries out linkage action on all subsystems in a work station, acquires information such as equipment, a switch and the like related to work content, feeds back to the dispatching automation platform after integration, obtains a site controllable equipment list after data exchange, analysis and integration with the dispatching automation platform, and independently lists equipment with unreliable site (old equipment or model of equipment does not support remote operation). Before the operation ticket is issued, the site controllable equipment can be subjected to pre-instruction operation. And simultaneously, the data analyzed by the system is transferred to a person who is going to the field to work in an email or short message mode, and the situation of the field and the equipment can be more clearly known when the person does not arrive at the field.

As shown in fig. 1 to 4, the linkage matching method of each subsystem is implemented by one-key programming, which specifically includes the following steps:

the dispatching automation platform is linked with the one-key programming operation system through a communication protocol interface, and when the dispatching automation platform receives an instruction, the one-key programming operation system links the automation equipment in the factory station to collect information of the position and equipment to be operated through the content received by the dispatching automation platform and reports the information;

the one-key programming operation system timely collects real-time weather conditions of the target plant station by utilizing the communication interface, and feeds the real-time weather conditions back to the dispatching automation platform in a form of a data table after programming treatment;

the one-key programming operation system is connected with the robot system, and when the transformer substation equipment fails, the one-key programming operation system receives equipment failure information and issues the failure information to the robot system to trigger linkage, so that the robot can patrol to a failure point;

the one-key programming operation system is connected with the video monitoring system, receives equipment fault information when equipment alarm signals occur, is linked with the video monitoring system, and is close to the plurality of cameras to check the basic conditions of the equipment;

the one-key programming operation system obtains remote signaling and remote measuring signals in the dispatching automation platform through an interface protocol, the system comprehensively analyzes and processes new data fed back by the robot and feedback data fed back by the monitoring system, and reliable switch and barrier gate switching-on and switching-off position information is obtained and reported to the dispatching automation platform.

The acquired information includes images, locations, temperatures.

Real-time weather conditions include temperature, humidity and wind speed data.

The inspection content comprises temperature measurement, alarm, pressure abnormality (compared with a set value and historical data), inspection abnormality, oil leakage of equipment and switch deflection.

The basic device conditions include appearance and location.

The invention also provides a one-key programming operating system.

The one-key programming operation system comprises:

1. and (3) realizing the integration of multiple information through the linkage of each automation system and subsystem of the transformer substation, processing and classifying information data of each system, and judging.

2. And integrating and processing the diversified information fed back by the remote control, remote signaling, monitoring and other systems, and displaying the diversified information in a layered manner.

3. The processed and layered information can provide data support for the sequential control operation of the dispatching automation platform, and more data comparison and effective error prevention verification are provided for the sequential control operation of the dispatching automation platform.

4. The method comprises the steps of utilizing robots and video monitoring to perfect the judgment of the opening and closing states of the disconnecting link, utilizing the linkage of the robots and the video monitoring and the automation system to dynamically control a camera of a transformer substation, further conducting real-time monitoring to perfect the judgment basis of in-place monitoring of opening and closing of the isolating disconnecting link, providing in-place signals which can be identified by the automation system, forming standard automation signals and transmitting the standard automation signals to the automation system.

The remote control of the power supply of the isolating switch motor is adopted to optimize the dispatching end five-prevention module, the remote control linkage isolating switch video and the robot monitoring are adopted to judge the in-place opening and closing monitoring of the outdoor isolating switch through the video, the robot imaging and the outdoor isolating switch pressure sensing, the monitoring and the control of primary and secondary equipment of the transformer substation are realized, the development goal of one-key operation of the equipment is further met, and the lean improvement of the equipment operation control efficiency is realized.

After the operation of the power supply of the isolating switch motor is completed, the displacement signal of the power supply of the isolating switch motor is forwarded to the video monitoring system through the dispatching master station automation system, the video monitoring system controls the camera to be automatically positioned to a relevant preset point, and after the isolating switch is separated and combined, the isolating switch is assisted to judge whether the isolating switch is separated and combined in place according to a graphic situation simulation algorithm.

By expanding the functions of the dispatching automation platform and the information-preserving main station, visual overhaul guidance of secondary devices such as measurement and control, protection, traveling wave, fault record and the like is realized, meanwhile, the switching function of the protection soft pressing plate is realized, and a foundation is laid for the protection remote control of sequential control.

8. Based on the interconnection and intercommunication of the production comprehensive management and control platform, the video monitoring system, the dispatching automation platform and the auxiliary monitoring system, the inspection is automatically carried out on station equipment facilities in a one-key starting mode, the acquisition of the appearance pictures of the total station equipment is realized through the video monitoring system, the equipment state is analyzed and judged in an automatic judging mode, a video inspection report is automatically generated, and the 4A system can be directly backfilled after the inspection personnel confirm the inspection; collecting remote signaling, remote measurement and other signals of equipment operation in a self-set time interval through a dispatching automation monitoring system, and historical alarm information; collecting the running condition and the protection action information of the protection device through the information protection system and the event record remote transmission system; and generating a one-key inspection report through the production comprehensive management and control platform.

Thereby realizing the one-key programming operation system:

(1) The linkage system collects remote control, remote signaling and remote measuring signals;

(2) Through an intelligent inspection terminal, a substation information-protecting substation system, a fault wave recording system, a traveling wave ranging system and a protection action tripping information reporting system (including but not limited to an integrated dispatching operation management system) in an intelligent internet of things platform, information sharing, intelligent interconnection, intercommunication and intelligent linkage of all systems are realized through interface protocol construction;

(3) After the one-key programming system receives signals, automatically linking the intelligent patrol terminal to carry out patrol on the first and second devices with abnormal sites, carrying out popup window warning on the intelligent internet of things platform, and reporting the patrol result to related dispatching mechanisms, department management leaders and related professional teams in a short message form;

(4) The one-key programming operation system (including but not limited to an integrated dispatching operation management system) automatically extracts a substation protection substation system, a picture control system, a remote measurement system, a remote signaling system, a remote control signal system and the like according to the self-needed information, so that smooth work is ensured.

According to the invention, the one-key programming system is combined with the dispatching automation platform, so that when a worker receives an operation ticket, the worker can more comprehensively know the work task through the information pushed by the system, and the operation efficiency is improved.

1. The scheduling pre-command is received by the one-key programming system, and when personnel do not arrive at the factory, the system changes the switches, the knife switches and the like which need to be operated according to new requirements, so that the time spent by the personnel after arriving at the site is greatly improved, and the working efficiency is improved.

3. Through the programming system of control operation, the operation ticket selection, execution and verification are automatically completed by the intelligent substation system, manual intervention is not needed, the operation time and labor intensity are greatly reduced, and the safe operation level of the power grid system is improved.

4. After the one-key programming system and the dispatching automation platform are matched to finish the work, the pre-command is performed and the normal command logic is provided, so that the operation flow is clear, and the probability of error, forgetting and misoperation in the work generating operation is greatly reduced.

The conception of the invention of the method is as follows:

1. the scheduler uses the automatic change platform to send operation request to the operator, and the one-key programmable operation system is started, and cooperates with the automatic platform to judge the feasibility of the equipment, surrounding environment and the like related to the working place and task.

2. The one-key programming operation system feeds the field situation back to the dispatching platform, so that a dispatcher can know the field situation more clearly according to the data, and meanwhile, the analysis data can be transferred to an operator on duty, so that the operator on duty can know the field work task and the work environment more clearly.

3. The one-key programmed operating system performs comprehensive analysis and processing on the service conditions and years of each device of the plant station, and when the device does not support or is not suitable for supporting remote operation, the device is separated independently, and the systems which can be controlled remotely are associated uniformly.

(1) When the dispatcher gives out the pre-instruction, the equipment receiving the pre-instruction is prepared on site according to logic and steps.

(2) The equipment which is not suitable for receiving the pre-order is fed back to the dispatching automation platform for the next planning.

(3) After the one-key programming operation system and the dispatching automation platform integrate the site conditions, the dispatching personnel can issue the site personnel on duty, and the site personnel on duty can prepare proper working tools according to the data provided by the system to arrive at the site.

(4) Because the one-key programming operation system is already linked with the equipment related to the current work to prepare and feed back the site situation, the staff has comprehensively solved site fault points, risk assessment, required tools and workflow logic. Therefore, the working efficiency can be greatly improved, and the accident rate is reduced.

(5) The staff can complete work by matching the normal command with the pre-command received by the one-key programming operation system, so that a complete work report can be formed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The linkage matching method for one-key programming operation of each subsystem is characterized by comprising the following steps of:

the dispatching automation platform is linked with the one-key programming operation system through a communication protocol interface, and when the dispatching automation platform receives an instruction, the one-key programming operation system links the automation equipment in the factory station to collect information of the position and equipment to be operated through the content received by the dispatching automation platform and reports the information;

the one-key programming operation system timely collects real-time weather conditions of the target plant station by utilizing the communication interface, and feeds the real-time weather conditions back to the dispatching automation platform in a form of a data table after programming treatment;

the one-key programming operation system is connected with the robot system, and when the transformer substation equipment fails, the one-key programming operation system receives equipment failure information and issues the failure information to the robot system to trigger linkage, so that the robot can patrol to a failure point;

the one-key programming operation system is connected with the video monitoring system, receives equipment fault information when equipment alarm signals occur, is linked with the video monitoring system, and is close to the plurality of cameras to check the basic conditions of the equipment;

the one-key programming operation system acquires remote signaling and remote measuring signals in the dispatching automation platform through an interface protocol, the system comprehensively analyzes and processes new feedback data of the robot and feedback data of the monitoring system to obtain reliable on-off position information of the switch and the disconnecting link, and reports the information to the dispatching automation platform;

the one-key programmed operating system is linked with each automation system and subsystem of the transformer substation to integrate multiple information, process and classify information data of each system and judge the information data;

the one-key programmed operating system can integrate and process diversified information fed back by the remote control, remote signaling and monitoring system and display the information in layers; the processed and layered information is sent to a scheduling automation platform for sequential control operation;

the one-key programmed operating system dynamically controls a camera of the transformer substation by utilizing linkage of a robot and a video monitoring and automation system, so as to perform real-time monitoring and perfect judgment basis of in-place monitoring of opening and closing of the isolation disconnecting link, provide in-place signals which can be identified by the automation system, form standard automation signals and transmit the standard automation signals to the dispatching automation platform;

the one-key programmed operating system remotely controls a motor power supply of the isolating switch, remotely controls the video of the linkage isolating switch and the monitoring of the robot, judges the in-place opening and closing monitoring of the outdoor isolating switch through the video, the imaging of the robot and the pressure sensing of the outdoor isolating switch, and monitors and controls primary and secondary equipment of the transformer substation; after the operation of the power supply of the isolating switch motor is completed, transmitting a displacement signal of the power supply of the isolating switch motor to a video monitoring system through a dispatching automation platform, controlling a camera to be automatically positioned to a relevant preset point by the video monitoring system, and after the isolating switch is separated and combined, auxiliary judging whether the isolating switch is separated and combined in place according to a graphic situation simulation algorithm;

the one-key programming operation system realizes the visual overhaul guidance of the secondary devices such as measurement and control, protection, traveling wave and fault record through communication with the dispatching automation platform and the information-preserving main station, and simultaneously realizes the function of protecting the soft pressing plate to switch;

based on the interconnection and intercommunication of the production comprehensive management and control platform, the video monitoring system, the dispatching automation platform and the auxiliary monitoring system, the one-key programmed operating system automatically performs inspection on station equipment facilities in a one-key starting mode, the video monitoring system is used for collecting appearance pictures of the total station equipment, the equipment state is analyzed and judged in an automatic judging mode, a video inspection report is automatically generated, and the 4A system can be directly backfilled after inspection staff confirms the inspection;

the one-key programming operation system collects remote signaling, remote measuring signals and historical alarm information of equipment operation in a self-set time interval through the dispatching automation monitoring system;

the one-key programming operation system collects the running state and the protection action information of the protection device through the information protection system and the event record remote transmission system;

and the one-key programming operating system generates a one-key inspection report through the production comprehensive management and control platform.

2. The method for linkage coordination of each subsystem according to one-key programming operation of claim 1, wherein the method comprises the following steps: the acquired information includes images, locations, temperatures.

3. The method for linkage coordination of each subsystem according to one-key programming operation of claim 1, wherein the method comprises the following steps: real-time weather conditions include temperature, humidity and wind speed data.

4. The method for linkage coordination of each subsystem according to one-key programming operation of claim 1, wherein the method comprises the following steps: the inspection content of the robot comprises temperature measurement, alarm, pressure abnormality, inspection abnormality, oil leakage of equipment and switch deflection.

5. The method for linkage coordination of each subsystem according to one-key programming operation of claim 1, wherein the method comprises the following steps: the basic device conditions include appearance and location.

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