CN117439264A - Automatic acceptance checking system for monitoring information of substation of dispatching master station - Google Patents

Abstract

The invention relates to an automatic acceptance system for monitoring information of a dispatching main station and substation, which includes a configuration subsystem, an acceptance card generation subsystem, a communication subsystem and an automatic acceptance subsystem; the configuration subsystem is used to generate a monitoring information point table, and generates a monitoring information point table through communication The subsystem obtains the configuration from the dispatching master station database, uses the point number as the benchmark to compare the remote signaling, telemetry and remote control information in the database to see if it is consistent with the monitoring information point table, and generates verification results; the acceptance card generation subsystem is used to Automatically generate remote signaling acceptance cards, remote test acceptance cards, remote control acceptance cards and graphic element acceptance cards; the automatic acceptance subsystem is used to complete remote signaling automation based on the acceptance cards generated by the acceptance card generation subsystem and the monitoring information point table generated by the configuration subsystem. Acceptance, telemetry automatic acceptance, remote control automatic acceptance and graphic element rapid acceptance. The invention proposes that the remote signaling and remote testing acceptance strategies and the automatic acceptance device at the factory station form a closed-loop acceptance system to realize automatic acceptance of remote signaling and telemetry.

Description

An automatic acceptance system for dispatching main station and substation monitoring information

Technical field

The invention relates to the field of data processing technology, and in particular to an automatic acceptance system for a dispatching main station substation monitoring system.

Background technique

As an important station control layer equipment, the substation data communication gateway machine (i.e., remote control device) communicates with the bay level equipment in the station and interacts with dispatch centers at all levels in real time to support the integration of control and control in the substation. The key equipment for standardized operation is crucial to the safe and stable operation of the power grid. In particular, the joint debugging of control information between the main station and the factory station is a key task in the debugging phase of the substation monitoring system project.

At present, the joint debugging of control information of remote control devices mainly relies on manual real-time communication between the main station and the factory station. That is, the information received by the main station is manually matched point by point with the actual information received by the factory station. Sending information for proofreading has a single technical means, lacks effective debugging tools, has a low degree of automation, consumes a lot of manpower and time, and greatly affects the acceptance and operation of the system. In particular, there are the following situations: 1. Hardware condition limitations: The construction of communication links in substations is generally relatively lagging behind. Due to limitations in communication conditions, the joint debugging time of the main and substations is generally late, leaving less time for debugging personnel of the main and substations; 2. Poor station communication: At present, the debugging personnel of the main and substations usually communicate by phone, and the communication method is not smooth, and one party often goes offline; 3. Large cycle personnel occupation: Since the communication point tables of the main and substations of the new substation are all initially created and the signal The debugging cycle is long due to the large amount of verification. At the same time, debugging of the main and substations requires both parties to be online at the same time, which requires a large number of personnel. 4. Whether the communication of intelligent devices such as protection and measurement and control is normal and meets the requirements cannot be verified.

It should be noted that the information disclosed in the above background section is only used to enhance understanding of the background of the present disclosure, and therefore may include information that does not constitute prior art known to those of ordinary skill in the art.

Contents of the invention

The purpose of the present invention is to overcome the shortcomings of the prior art, provide an automatic acceptance system for dispatching main station substation monitoring information, and solve the problems existing in the prior art.

The purpose of the present invention is achieved through the following technical solutions: an automatic acceptance system for dispatching main station substation monitoring information, including an automatic acceptance device provided on the substation side, an automatic acceptance function module provided on the control main station side, and one of the substations of the main station. An automatic acceptance system is formed between them, and monitoring information is automatically connected to the verification and acceptance system. The automatic acceptance system includes a configuration subsystem, an acceptance card generation subsystem, a communication subsystem and an automatic acceptance subsystem;

The configuration subsystem is used to generate a monitoring information point table, and use the configuration obtained from the dispatching master station database through the communication subsystem to compare the remote signaling, telemetry and remote control information in the database with the monitoring information points based on the point number. The tables are consistent and verification results are generated;

The acceptance card generation subsystem is used to automatically generate remote signaling acceptance cards, remote test acceptance cards, remote control acceptance cards and graphic element acceptance cards;

The automatic acceptance subsystem is used to complete automatic acceptance of remote signaling, automatic acceptance of telemetry, automatic acceptance of remote control and rapid acceptance of graphics elements based on the acceptance card generated by the acceptance card generation subsystem and the monitoring information point table generated by the configuration subsystem.

The automatic acceptance subsystem includes a remote signaling automatic acceptance module, a telemetry automatic acceptance module, a remote control automatic acceptance module and a graphic element rapid acceptance module;

The remote signaling automatic acceptance module is used to perform automatic acceptance of remote signaling based on the remote signaling acceptance card and the monitoring information point table;

The telemetry automatic acceptance module is used to perform automatic acceptance of telemetry based on the telemetry collection card and monitoring information point table;

The remote control automatic acceptance module is used to perform automatic acceptance of remote control based on the remote control acceptance card and the monitoring information point table;

The graphic element quick acceptance module is used to perform quick acceptance of graphic elements based on the graphic element acceptance card and the monitoring information point table.

The specific acceptance process of the remote signaling automatic acceptance module includes:

Import the monitoring information point table to generate real and virtual remote signaling configurations, select the acceptance strategy and acceptance points, automatically preset the remote signaling acceptance sequence and acceptance standard values based on the acceptance strategy and acceptance points, and generate real and virtual remote signaling acceptance cards. Receive the remote signaling value forwarded by the dispatching master station in real time, compare the received remote signaling value with the preset acceptance sequence and acceptance value one by one, and generate a remote signaling acceptance report.

The specific acceptance process of the telemetry automatic acceptance module includes:

Import the monitoring information point table to generate telemetry value configuration, select the acceptance strategy and acceptance point, automatically preset the telemetry acceptance sequence and acceptance standard value according to the acceptance strategy and acceptance point, generate the telemetry acceptance card, and receive the telemetry value forwarded by the dispatching master station at the same time. The received telemetry values are compared one-to-one with the preset acceptance sequence and acceptance values to generate a telemetry acceptance report.

The specific acceptance process of the remote control automatic acceptance module includes:

Import the monitoring information point table to generate remote control value configuration, select the acceptance strategy and acceptance point, automatically preset the remote control acceptance sequence and acceptance standard value according to the acceptance strategy and acceptance point, and use the name + fuzzy matching principle to automatically identify the remote control point associated with the remote control point. The signal point generates a remote control acceptance card, and at the same time receives the remote control value and remote signaling value forwarded by the dispatching master station, compares the received remote control value and remote signaling value with the preset acceptance sequence and acceptance value one by one, and generates a remote control acceptance report.

The specific acceptance process of the primitive rapid acceptance module includes:

Export graphics files in SVG format and data model CIME files from the dispatching main station, parse the power diagram elements according to standard technical specifications, and display graphics of optical signs, intervals, and primary main wiring. At the same time, the data model CIME files are parsed, and the associated remote signals are parsed. Configuration, and association with the power primitives, and acceptance of the primitives through preview.

The preview method of accepting graphics elements specifically includes: switching to the graphical interface to start acceptance, the acceptance system automatically starts to simulate the associated remote signaling points according to the switching sequence, and prompts the name and number of the simulated remote signaling points at the same time; checking the graphics elements and remote signaling Whether the names correspond one to one, it is judged whether the remote signaling associated with the graphics is correct.

It also includes a recording subsystem, which is used to record the remote signaling, telemetry, remote control and graphic element acceptance results in the automatic acceptance subsystem, and to derive each acceptance result.

The invention has the following advantages: an automatic acceptance system for dispatching main station substation monitoring information. It proposes a remote signaling and remote testing acceptance strategy and an automatic acceptance device at the factory station to form a closed-loop acceptance system to realize automatic acceptance of remote signaling and telemetry. It proposes a method based on acceptance Points, multi-dimensional association rules are used to automatically generate remote signaling, telemetry, remote control and graphic element acceptance cards, and the principle of name matching is proposed to realize automatic association of remote signaling points with remote signaling points. Under the premise of actual remote control acceptance at the factory station, the main station side is realized Automatic acceptance, proposes parsing standard (manufacturer-defined) graphics elements and data models, and achieves rapid acceptance of the graphics library through preview.

Description of the drawings

Figure 1 is a schematic flow chart of the automatic acceptance method of the present invention;

Figure 2 is a schematic diagram of remote signaling acceptance;

Figure 3 is a schematic diagram of remote test collection;

Figure 4 is a schematic diagram of remote control acceptance;

Figure 5 is a schematic diagram of graphic element acceptance.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. Obviously, the described embodiments are only These are part of the embodiments of this application, but not all of them. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a variety of different configurations. Accordingly, the following detailed description of the embodiments of the application provided in connection with the appended drawings is not intended to limit the scope of the application as claimed, but rather to merely represent selected embodiments of the application. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without any creative work shall fall within the scope of protection of this application. The present invention will be further described below in conjunction with the accompanying drawings.

The invention specifically relates to an automatic acceptance system for dispatching main station substation monitoring information, which forms a complete closed-loop automatic acceptance system with the automatic acceptance device at the factory station, the data gateway and the dispatching main station (communication front-end server, database server) at the main station side. , add an automatic acceptance device on the substation side, and add an automatic acceptance function module on the control main station side. An automatic acceptance system is formed between the main and substations, and the monitoring information is automatically accessed for verification and acceptance. The system adopts the idea of segmented acceptance, optimizes the acceptance process, and The multi-professional cooperation links between the master and sub-stations for monitoring information acceptance are decoupled, turning serial work into parallel work. Based on panoramic monitoring information simulation technology, automatic verification of information interaction between master and sub-stations is realized; it includes a configuration subsystem and an acceptance card generation subsystem. , communication subsystem, automatic acceptance subsystem and recording subsystem;

The configuration subsystem is used to generate a monitoring information point table, and through the communication subsystem obtains the configuration from the dispatching master station database, and sequentially compares the name, interval ID, voltage level, alarm type, and whether of the remote signal in the database based on the point number. Check whether the name, interval ID, voltage level, etc. of the optical sign, telemetry and remote control are consistent with the monitoring information point table, and generate a verification result record file in PDF format.

The acceptance card generation subsystem is used to automatically generate remote signaling acceptance cards, remote test acceptance cards, remote control acceptance cards and graphic element acceptance cards;

The automatic acceptance subsystem is used to complete automatic acceptance of remote signaling, automatic acceptance of telemetry, automatic acceptance of remote control and rapid acceptance of graphics elements based on the acceptance card generated by the acceptance card generation subsystem and the monitoring information point table generated by the configuration subsystem.

The recording subsystem is used to record the remote signaling, telemetry, remote control and graphic element acceptance results in the automatic acceptance subsystem, and export each acceptance result.

Among them, the implementation methods of obtaining the master station configuration and data include:

How to obtain factory-side data: dispatch the main station front-end server to communicate with the factory-side data communication gateway machine in real time, receive the remote signaling and telemetry information sent by the data gateway machine in real time, and communicate with the server through the DL/T634.5104 protocol The information is forwarded to the automatic acceptance system in the form. The automatic acceptance system uses the 104 client communication program to receive remote signaling and telemetry information, and can also issue remote control commands to the factory station, etc.

Obtaining the configuration of the dispatching master station: ① The master station database has open permissions. The automatic acceptance system directly accesses the relevant configuration tables of the database through SQL statements, conducts correlation analysis on all configuration tables, and generates relevant point numbers, names, interval IDs, voltage levels, and alarms. Type, configuration of formats such as optical signboards; ② The dispatching master station directly exports the point number, name, interval ID, voltage level, alarm type, whether optical signboards and other formats in EXCEL, SVG, CIME and other formats through the workstation configuration file.

As shown in Figure 1, the acceptance process specifically includes the following contents:

Step 1: Check the remote control configuration information (RCD) of the data communication gateway machine, use the monitoring information setting sheet as the benchmark, check the consistency of the two, and automatically generate a report on the check results to realize the remote control information static verification.

Step 2: Carry out synchronous acceptance of telecontrol forwarding information and in-site monitoring background information to achieve dynamic verification of telecontrol forwarding information.

Step 3: Verify the front-end configuration information of the control master station. Also use the monitoring information setting sheet as a benchmark to check the consistency of the two. Automatically generate a report on the verification results to realize the front-end configuration information of the master station. static verification.

Step 4: Carry out automatic verification of interactive information between the master and substations. The automatic acceptance device on the substation side triggers the transmission of remote forwarding data according to the customized strategy, and regulates the main station to automatically verify the received information according to the customized strategy, realizing automatic verification of the interactive information between the master and substations. .

Step 5: Carry out the verification of the correctness of the information association of the monitoring screen on the main station side, and verify the correctness of the monitoring screen based on the information source triggering technology on the main station side. The automatic acceptance subsystem implements functions such as pre-configuration information verification, automatic verification of monitoring information, and verification of the correlation correctness of monitoring screen information. The automatic acceptance device on the substation side is a convenient plug-and-play device that realizes verification of telecontrol configuration information of data communication gateways, synchronous acceptance of telecontrol information and monitoring background information, closed-loop verification of telecontrol information, and interaction between master and substations. Automatic triggering of information sources and other functions.

Further, the automatic acceptance subsystem includes a remote signaling automatic acceptance module, a telemetry automatic acceptance module, a remote control automatic acceptance module and a graphic element rapid acceptance module;

As shown in Figure 2, the specific acceptance process of the remote signaling automatic acceptance module includes: importing the monitoring information point table to generate real remote signaling and virtual remote signaling configurations, selecting the acceptance strategy and acceptance points, and automatically presetting the remote signaling acceptance based on the acceptance strategy and acceptance points. order and acceptance standard values, generate real remote signaling and virtual remote signaling acceptance cards, and simultaneously receive the remote signaling values forwarded by the dispatching master station in real time, compare the received remote signaling values one by one with the preset acceptance sequence and acceptance values, and generate remote signaling Letter of acceptance report.

As shown in Figure 3, the specific acceptance process of the telemetry automatic acceptance module includes: importing the monitoring information point table to generate the telemetry value configuration, selecting the acceptance strategy and acceptance points, and automatically presetting the telemetry acceptance sequence and acceptance standard values based on the acceptance strategy and acceptance points. Generate a remote test acceptance card, and at the same time receive the telemetry value forwarded by the dispatching master station, compare the received telemetry value with the preset acceptance sequence and acceptance value one by one, and generate a remote test acceptance report.

As shown in Figure 4, the specific acceptance process of the remote control automatic acceptance module includes: importing the monitoring information point table to generate the remote control value configuration, selecting the acceptance strategy and acceptance points, and automatically presetting the remote control acceptance sequence and acceptance standard values based on the acceptance strategy and acceptance points. And adopt the principle of name + fuzzy matching to automatically identify the remote signaling point associated with the remote control point, generate a remote control acceptance card, and at the same time receive the remote control value and remote signaling value forwarded by the dispatching master station, and compare the received remote control value and remote signaling value with the preset Compare the acceptance sequence and acceptance values one by one to generate a remote control acceptance report.

As shown in Figure 5, the specific acceptance process of the graphic element rapid acceptance module includes: exporting SVG format graphic files and data model CIME files from the dispatching master station, parsing out the power graphic elements according to standard technical specifications, and displaying light signs, intervals, The primary wiring diagram simultaneously parses the data model CIME file, parses the associated remote signaling configuration, establishes an association with the power diagram elements, and accepts the diagram elements through preview.

Further, the preview method of accepting graphic elements specifically includes: switching to the graphical interface to start acceptance, the acceptance system automatically starts to simulate the associated remote signaling points according to the switching sequence, and prompts the name and number of the simulated remote signaling points at the same time; checking the graphic elements and remote signaling points. Check whether the letter names correspond one to one, and determine whether the remote letter associated with the graphics is correct.

The present invention also includes the acceptance of sub-stations, which includes the following:

(1) Static configuration verification: The static verification function interface of the automatic acceptance device imports SCD, RCD and monitoring information point tables as required, conducts validity and consistency scans, and confirms that the entire station equipment model and remote controller configuration are correct. Check the syntax and semantics of RCD files, check the consistency of RCD and SCD files, and check the consistency of RCD files and monitoring information point tables.

(2) Import the monitoring information point table and perform the synchronous acceptance function: the point device is connected to the export side of the remote machine (acting as a simulation master station), and the on-site debugger actually triggers the remote signal or applies remote measurement, and communicates with the monitoring through the simulation master station Synchronous acceptance is carried out in the background to verify that the configuration of the remote control device is treated the same as the primary/secondary signals of the substation. It solves the problem that the signals in the station pass through intelligent terminals, merging units and other signal sources, and pass through the protection measurement and control devices to the monitoring background and remote machines. The entire link, Signal problem.

(3) Import the RCD file and perform a dynamic verification function: conduct a closed-loop test on the remote control entrance and exit sides of the point device at the same time, dynamically verify whether the remote control forwarding table is consistent with its internal actual configuration, and the remote control remote signaling Whether the telemetry signal forwarding delay meets the requirements of Zuyuan engine technical specifications.

(4) If there is no RCD file, the dynamic verification function will not be executed, and the configuration verification function will be executed: the point device is connected to the entrance side and exit side of the remote controller at the same time for closed-loop testing, and the panoramic information scanning method is used to simulate the protection, measurement and control device. All remote signaling and telemetry points are sent to the remote controller, and the point device simulation debugging master station receives the 104 data forwarded by the remote controller. Through the following scheme association, a remote controller configuration point table is formed. At the same time, the remote controller configuration point table and the control information table can be compared for consistency.

(5) Automatic triggering: The point device is connected to the simulation protection measurement and control device on the entrance side of the remote machine, and cooperates with the automatic acceptance module of the main station to complete the joint automatic acceptance of the monitoring information of the main and sub-stations channel by channel. The remote signaling points are assigned point numbers from small to large according to the specified interval. Actions and resets are sent in sequence. Telemetry points are sent from small to large at specified intervals. The remote signaling value is point number + 0.99.

The present invention also includes a joint automatic acceptance of the main and sub-stations; after completing the separate acceptance of the substation side and the dispatching main station, a joint automatic acceptance of the sub-station and the main station is carried out. The remote signaling and telemetry acceptance process is as follows:

S1. The main station automatic acceptance module and the substation automatic acceptance device set unified remote signaling and remote test acceptance strategies respectively;

S2. The automatic acceptance device simulates the remote signaling and telemetry signals of the bay layer equipment to the gateway machine according to the remote signaling and remote testing acceptance strategy, and the gateway machine forwards the data to the main station;

S3. The automatic acceptance module of the main station receives remote signaling and telemetry signals, compares the remote signaling and telemetry signals according to the remote signaling and telemetry acceptance strategy, and generates an acceptance report;

S4. The main station automatically accepts the remote signaling and telemetry signals that have been simulated and verified, manually confirms the correctness of the diagram and model association, and generates a diagram and model acceptance report.

Furthermore, the automatic acceptance strategy of the main and sub-stations includes:

The remote signaling acceptance strategy (except for communication interruption signals) that participates in the automatic acceptance of substation monitoring information includes: a) The initial state is all 0 (that is, the switch signal is divided, and the alarm signal is reset); b) According to the participation in automatic acceptance The remote signal value of the remote point number of the information is judged in order from small to large as 0->1->0; c) Finally, the values of the information participating in the automatic acceptance are all 0.

The automatic acceptance strategy of communication interruption information includes: a) The initial state is all 1 (i.e. communication interruption); b) According to the order of the remote point numbers participating in the automatic acceptance information from small to large, the value of the communication interruption signal is judged to be 1->0, That is, from communication interruption to normal communication; c) Finally, the participating automatic acceptance values are all 0, that is, all are reset.

The telemetry acceptance strategy that participates in the automatic acceptance of substation monitoring information includes: a) the initial state is all 0; b) according to the order of the remote point numbers participating in the automatic acceptance information from small to large, the telemetry value is judged to be the point number plus the offset, where The offset can be set, and the offset is set to 0.99, then the value of the point number 100 should be 100.99; c) The final telemetry values participating in the automatic acceptance are all the point number plus the offset.

The above are only preferred embodiments of the present invention. It should be understood that the present invention is not limited to the form disclosed herein and should not be regarded as excluding other embodiments, but can be used in various other combinations, modifications and improvements, and Modifications can be made within the scope of the ideas described herein through the above teachings or technology or knowledge in related fields. Any modifications and changes made by those skilled in the art that do not depart from the spirit and scope of the present invention shall be within the protection scope of the appended claims of the present invention.

Claims (8)

1. An automatic acceptance system for monitoring information of the dispatching main station and substation, which is characterized by: including an automatic acceptance device set on the substation side, an automatic acceptance function module set on the control main station side, and an automatic acceptance system is formed between the substations of the main station. , monitoring information is automatically connected to the verification and acceptance system. The automatic acceptance system includes a configuration subsystem, an acceptance card generation subsystem, a communication subsystem and an automatic acceptance subsystem; The configuration subsystem is used to generate a monitoring information point table, and use the configuration obtained from the dispatching master station database through the communication subsystem to compare the remote signaling, telemetry and remote control information in the database with the monitoring information points based on the point number. The tables are consistent and verification results are generated; The acceptance card generation subsystem is used to automatically generate remote signaling acceptance cards, remote test acceptance cards, remote control acceptance cards and graphic element acceptance cards; The automatic acceptance subsystem is used to complete automatic acceptance of remote signaling, automatic acceptance of telemetry, automatic acceptance of remote control and rapid acceptance of graphics elements based on the acceptance card generated by the acceptance card generation subsystem and the monitoring information point table generated by the configuration subsystem. 2. A dispatching main station substation monitoring information automatic acceptance system according to claim 1, characterized in that: the automatic acceptance subsystem includes a remote signaling automatic acceptance module, a telemetry automatic acceptance module, a remote control automatic acceptance module and a graphic element. Quick acceptance module; The remote signaling automatic acceptance module is used to perform automatic acceptance of remote signaling based on the remote signaling acceptance card and the monitoring information point table; The telemetry automatic acceptance module is used to perform automatic acceptance of telemetry based on the telemetry collection card and monitoring information point table; The remote control automatic acceptance module is used to perform automatic acceptance of remote control based on the remote control acceptance card and the monitoring information point table; The graphic element quick acceptance module is used to perform quick acceptance of graphic elements based on the graphic element acceptance card and the monitoring information point table. 3. A dispatching main station substation monitoring information automatic acceptance system according to claim 2, characterized in that: the specific acceptance process of the remote signaling automatic acceptance module includes: Import the monitoring information point table to generate real and virtual remote signaling configurations, select the acceptance strategy and acceptance points, automatically preset the remote signaling acceptance sequence and acceptance standard values based on the acceptance strategy and acceptance points, and generate real and virtual remote signaling acceptance cards. Receive the remote signaling value forwarded by the dispatching master station in real time, compare the received remote signaling value with the preset acceptance sequence and acceptance value one by one, and generate a remote signaling acceptance report. 4. A dispatching main station substation monitoring information automatic acceptance system according to claim 2, characterized in that: the specific acceptance process of the telemetry automatic acceptance module includes: Import the monitoring information point table to generate telemetry value configuration, select the acceptance strategy and acceptance point, automatically preset the telemetry acceptance sequence and acceptance standard value according to the acceptance strategy and acceptance point, generate the telemetry acceptance card, and receive the telemetry value forwarded by the dispatching master station at the same time. The received telemetry values are compared one-to-one with the preset acceptance sequence and acceptance values to generate a telemetry acceptance report. 5. A dispatching main station substation monitoring information automatic acceptance system according to claim 2, characterized in that: the specific acceptance process of the remote control automatic acceptance module includes: Import the monitoring information point table to generate remote control value configuration, select the acceptance strategy and acceptance point, automatically preset the remote control acceptance sequence and acceptance standard value according to the acceptance strategy and acceptance point, and use the name + fuzzy matching principle to automatically identify the remote control point associated with the remote control point. The signal point generates a remote control acceptance card, and at the same time receives the remote control value and remote signaling value forwarded by the dispatching master station, compares the received remote control value and remote signaling value with the preset acceptance sequence and acceptance value one by one, and generates a remote control acceptance report. 6. A dispatching main station substation monitoring information automatic acceptance system according to claim 2, characterized in that: the specific acceptance process of the picture element rapid acceptance module includes: Export graphics files in SVG format and data model CIME files from the dispatching main station, parse the power diagram elements according to standard technical specifications, and display graphics of optical signs, intervals, and primary main wiring. At the same time, the data model CIME files are parsed, and the associated remote signals are parsed. Configure and establish association with power primitives, and accept the primitives through preview. 7. An automatic acceptance system for dispatching main station substation monitoring information according to claim 6, characterized in that: the preview method for accepting graphic elements specifically includes: switching to the graphical interface to start acceptance, and the acceptance system automatically starts following the switching sequence. The remote signaling point associated with the simulation will be prompted with the name and name of the simulated remote signaling point at the same time; check whether the graphic element and the remote signaling name correspond one to one, and determine whether the remote signaling associated with the graphics is correct. 8. A dispatching main station substation monitoring information automatic acceptance system according to any one of claims 1 to 7, characterized in that: it also includes a recording subsystem, the recording subsystem is used to record the automatic acceptance subsystem Record the acceptance results of remote signaling, telemetry, remote control and graphic elements, and export each acceptance result.