CN109768619B - Automatic debugging system and debugging method for monitoring information - Google Patents

Abstract

The invention discloses an automatic debugging system and a debugging method for monitoring information. The monitoring information automatic debugging system mainly comprises an EMS system, a transformer substation module and an automatic debugging main system. And the automatic debugging main system generates a debugging task, so that the transformer substation module sends alarm information to the EMS system and the automatic debugging main system respectively. And automatically debugging the main system to compare the alarm information so as to finish debugging and generate a debugging report. The debugging method mainly comprises the following steps: 1) and establishing a debugging task and issuing the debugging task to the transformer substation module. 2) And the transformer substation module generates a driving signal according to the debugging task. And the driving master control sends monitoring alarm content to the EMS system and the automatic debugging main system according to the monitoring information point table. 3) And the automatic debugging main system compares the monitoring alarm content recorded by the EMS system and performs difference analysis, so that the signal debugging condition between the transformer substation and the EMS system is evaluated, and a debugging report is generated. The invention realizes the automatic debugging of the monitoring information of the transformer substation and greatly improves the efficiency.

Description

Automatic debugging system and debugging method for monitoring information

Technical Field

The invention relates to the field of transformer substation debugging, in particular to an automatic monitoring information debugging system and a debugging method.

Background

The field debugging of the transformer substation equipment is one of very important works before the transformer substation is put into operation, and for the debugging of the transformer substation equipment, a debugging worker needs to check the alternating voltage, the current, the active power, the reactive power, the frequency, the accident trip, the switching value, the protection action, the protection reset, the monitoring alarm, the monitoring reset and the like of the transformer substation equipment when debugging the equipment, and the transformer substation equipment is subjected to setting, debugging and preset parameter printing. In the prior art, a display screen is installed on substation equipment, and all operations or information viewing is performed based on the display screen.

In the traditional debugging work for monitoring information access of the intelligent transformer substation, at least 2 workers are required to operate in the transformer substation and an EMS system at the same time respectively, and the consistency of monitoring alarm content sent by the transformer substation and monitoring alarm content recorded by the EMS is checked by using a telephone, so that the debugging work is completed, and the efficiency is very low.

Disclosure of Invention

The present invention is directed to solving the problems of the prior art.

The technical scheme adopted for achieving the purpose of the invention is that the monitoring information automatic debugging system mainly comprises an EMS system, a transformer substation module and an automatic debugging main system.

The EMS system sets a remote monitoring information point and collects monitoring information of the remote monitoring information point, thereby generating a monitoring information point table of the EMS system.

The EMS system monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point.

The transformer substation module is provided with monitoring information points, and monitoring information of the monitoring information points is collected, so that a transformer substation monitoring information point table is generated.

The transformer substation monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point

And after checking the transformer substation monitoring information point table and the EMS system monitoring information point table, the transformer substation module sends the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table and the transformer substation monitoring information point table to the automatic debugging main system.

And the automatic debugging main system receives the EMS system monitoring information point table and sends the EMS system monitoring information point table to the transformer substation module.

And the automatic debugging main system generates a debugging task according to the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table.

And the automatic debugging main system issues the debugging task to the transformer substation module, and the transformer substation module generates monitoring alarm information.

And the transformer substation module respectively sends monitoring alarm information to the EMS system and the automatic debugging main system.

The debugging task comprises a debugging point table consisting of a plurality of monitoring information points.

The debugging tasks mainly comprise debugging point serial numbers and debugging tasks corresponding to the debugging points.

And the automatic debugging main system compares the monitoring alarm information sent by the transformer substation module with the monitoring alarm information recorded by the EMS system. If the monitoring alarm information sent by the transformer substation module is the same as the monitoring alarm information received by the EMS system, the information debugging between the transformer substation and the EMS system is correct, and if the information debugging is different, the transformer substation sends error information to the EMS system in formal operation.

And completing the debugging of the automatic debugging main system and generating a debugging report.

The automatic debugging main system mainly comprises a computer memory, a PC display screen, a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a telesignaling information management submodule I, a telesignaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II.

The computer memory stores the contents of a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a remote signaling information management submodule I, a remote signaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II.

The PC display screen displays interfaces of the debugging management main module, the telemetering information management sub-module I, the telemetering information management sub-module II, the telecommand information management sub-module I, the telecommand information management sub-module II, the debugging task management sub-module I and the debugging task management sub-module II.

The debugging management main module mainly displays a plurality of power supply offices.

There is a drop down list for each power supply office, including several substations.

There is a drop down list for each substation, including several substation bays.

The transformer substation is connected with a telemetry information management submodule I, a remote signaling information management submodule I and a debugging task management submodule I.

And the telemetry information management submodule I displays the telemetry information of the transformer substation.

And the remote signaling information management submodule I displays the remote signaling information of the transformer substation.

The substation telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a substation to which the substation telemetering information description belongs.

The substation remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a substation to which the substation remote signaling information description belongs.

And the debugging task management submodule I displays the debugging task of the transformer substation.

The transformer substation interval link remote measuring information management submodule II, a remote signaling information management submodule II and a debugging task management submodule II.

And the telemetering information management submodule II displays the substation interval telemetering information.

And the remote signaling information management submodule II displays the transformer substation interval remote signaling information.

The substation interval telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a substation interval to which the telemetering information description belongs.

The transformer substation interval remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a transformer substation interval.

And the debugging task management submodule II displays transformer substation interval debugging tasks.

The debugging task management submodule I is provided with a creation button.

The substation debugging task is created or added through a creation button.

And the debugging task management submodule I and the debugging task management submodule II are both provided with newly added buttons.

And the monitoring information point is added into the debugging task through a newly added button.

The debugging method based on the automatic monitoring information debugging system mainly comprises the following steps:

1) setting n monitoring information points in a transformer substation, and establishing a transformer substation monitoring information point set A ═ a₁,a₂，…，a_n]And storing the data into a transformer substation monitoring information point table.

2) Setting n remote monitoring information points in EMS system, and establishing EMS system monitoring information point set B [ B ]₁,b₂，…，b_n]And storing the data in the EMS system monitoring information point table.

3) And the automatic debugging main system issues the EMS system monitoring information point table in the EMS system to the transformer substation module.

4) The transformer substation module checks the EMS system monitoring information point table and the transformer substation monitoring information point table and generates a corresponding relation between the EMS system monitoring information point table and the transformer substation monitoring information point table.

And the transformer substation module uploads the transformer substation monitoring information point table, the corresponding relation and the transformer substation monitoring information point table to the automatic debugging main system.

5) And the automatic debugging main system creates a debugging task according to the monitoring information point table and the corresponding relation of the transformer substation and sends the debugging task to the transformer substation module.

6) And the transformer substation module generates a driving signal according to the debugging task.

And the driving master control sends monitoring alarm information to the EMS system and the automatic debugging main system according to the driving signal.

7) The automatic debugging main system compares the monitoring alarm content recorded by the EMS system and performs difference analysis by taking the monitoring alarm content which is directly received by the automatic debugging main system and passes the integrity verification as a reference, thereby completing debugging.

8) And after debugging is finished, automatically debugging the main system to generate a debugging report.

The technical effect of the present invention is undoubted. The invention realizes the automatic debugging of the transformer substation, changes the inefficient mode of checking the monitoring information manually through the telephone, and shortens the debugging time by about 2 days and greatly improves the efficiency by using the automatic debugging system and the method for the transformer substation with medium scale and the manual debugging time by about 7 days.

Drawings

FIG. 1 is a diagram of a system architecture for automatic debugging of monitoring information;

FIG. 2 is a main module for debugging management showing telemetry information;

FIG. 3 is a main module for debugging management showing remote signaling information;

FIG. 4 is a debug management main module showing a debug task.

Detailed Description

The present invention is further illustrated by the following examples, but it should not be construed that the scope of the above-described subject matter is limited to the following examples. Various substitutions and alterations can be made without departing from the technical idea of the invention and the scope of the invention is covered by the present invention according to the common technical knowledge and the conventional means in the field.

Example 1:

referring to fig. 1 to 4, the monitoring information automatic debugging system mainly includes an EMS system, a substation module, and an automatic debugging main system.

The EMS system sets a remote monitoring information point, generates an EMS system monitoring information point table and collects monitoring alarm information sent by the remote monitoring information point.

The EMS system monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point.

The EMS energy management system is a general name of a modern power grid dispatching automation system (comprising hardware and software). The main functions of the system consist of a basic function and an application function. The basic functions include a data acquisition and monitoring system (SCADA system), Automatic Generation Control (AGC) and Economic Dispatch Control (EDC), power system state estimation (StateEstimator), safety analysis (SecurityAnalyzer), and dispatcher simulation training system (DTS). The application functions include data acquisition and monitoring (SCADA), Automatic Generation Control (AGC) and planning, and network application analysis.

The EMS energy management system has the following functions:

I) and short message reminding of abnormal data.

II) regulating the planned operation (planned prompt and unplanned alarm) of critical equipment (power).

III) carrying out integral analysis and mutual proofreading on multiple signal points.

IV) balancing the energy consumption in real time, and predicting the energy consumption.

And the transformer substation module sets the monitoring information points to generate a transformer substation monitoring information point table, and acquires and transmits monitoring alarm information of the monitoring information points to the EMS system.

The transformer substation monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point.

And after checking the transformer substation monitoring information point table and the EMS system monitoring information point table, the transformer substation module sends the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table and the transformer substation monitoring information point table to the automatic debugging main system.

And the automatic debugging main system receives the EMS system monitoring information point table and sends the EMS system monitoring information point table to the transformer substation module.

And the automatic debugging main system generates a debugging task according to the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table.

And the automatic debugging main system issues the debugging task to the transformer substation module, so that the transformer substation module sends alarm information to the EMS system and the automatic debugging main system respectively.

The debugging task (which comprises a plurality of monitoring information points) mainly comprises a debugging point serial number and a debugging task corresponding to the debugging point.

The automatic debugging main system compares the alarm information sent by the transformer substation module with the alarm information recorded by the EMS system, so as to complete debugging and generate a debugging report.

The automatic debugging main system mainly comprises a computer memory, a PC display screen, a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a telesignaling information management submodule I, a telesignaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II.

The computer memory stores the contents of a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a remote signaling information management submodule I, a remote signaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II.

The PC display screen displays interfaces of the debugging management main module, the telemetering information management sub-module I, the telemetering information management sub-module II, the telecommand information management sub-module I, the telecommand information management sub-module II, the debugging task management sub-module I and the debugging task management sub-module II.

The debugging management main module mainly displays a plurality of power supply offices.

There is a drop down list for each power supply office, including several substations.

There is a drop down list for each substation, including several substation bays.

In the design and construction of the power station, the power station is formed by respectively combining parts such as an incoming line, a main transformer high voltage, a main transformer low voltage, a main transformer, a low voltage outgoing line and the like, wherein each part is called an interval. For example, the incoming line interval is formed by combining a line side grounding switch, a line side disconnecting link, a switch side grounding switch, a bus side disconnecting link and a bus grounding switch from a cable head at the end of a line, and all electrical equipment form the incoming line interval.

A substation bay is a collection of a set of devices.

The transformer substation is connected with a telemetry information management submodule I, a remote signaling information management submodule I and a debugging task management submodule I.

And the telemetry information management submodule I displays the telemetry information of the transformer substation.

And the remote signaling information management submodule I displays the remote signaling information of the transformer substation.

The substation telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a substation to which the substation telemetering information description belongs.

The substation remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a substation to which the substation remote signaling information description belongs.

Telemetry (telemetry information): and (4) remote measurement. The method is a technology for transmitting the short-distance measurement value of the object parameter to a long-distance measurement station to realize long-distance measurement.

Remote signaling (remote signaling information): a remote signal. The method comprises the steps of collecting and transmitting various protection and switching values, and mainly means remotely testing the current state of a switch, such as whether the switch is closed or not, whether energy is stored or not and the like.

Information remote control (remote control information): and (5) remote control. And receiving and executing remote control commands, mainly switching on and off, and remotely controlling some remote equipment.

Remote tuning (remote tuning information): and (4) remote adjustment. And receiving and executing remote adjusting commands, and performing remote adjusting on remote equipment, such as adjusting the output power of the generator.

And the debugging task management submodule I displays the debugging task of the transformer substation.

The transformer substation interval link remote measuring information management submodule II, a remote signaling information management submodule II and a debugging task management submodule II.

And the telemetering information management submodule II displays the substation interval telemetering information.

And the remote signaling information management submodule II displays the transformer substation interval remote signaling information.

The substation interval telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a substation interval to which the telemetering information description belongs.

The transformer substation interval remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a transformer substation interval.

And the debugging task management submodule II displays transformer substation interval debugging tasks.

The debugging task management submodule I is provided with a creation button.

The substation debugging task is created or added through a creation button.

The debugging task comprises a debugging point table consisting of a plurality of monitoring information points.

The debugging task mainly comprises remote measurement of active power, reactive power, frequency, voltage, current, oil temperature, air pressure and the like of the transformer substation, remote signaling signals of switch knife switch position, protection action and resetting, accident summary and the like, and a plurality of remote control and remote regulation signals.

And the debugging task management submodule I and the debugging task management submodule II are both provided with newly added buttons.

And the monitoring information point is added into the debugging task through a newly added button.

Example 2:

the debugging method based on the automatic monitoring information debugging system mainly comprises the following steps:

1) setting n monitoring information points in a transformer substation, and establishing a transformer substation monitoring information point set A ═ a₁,a₂，…，a_n]And storing the data into a transformer substation monitoring information point table.

Generally, the monitoring information point table is a summary table of specific point locations for collecting operation and monitoring data of the substation. The following should be included:

I) equipment operating state point: the state points of the switches (breakers) and the disconnecting switches (isolating switches) at intervals of the transformer substation are the names of the switch disconnecting switches and the auxiliary contacts of the switch disconnecting switches.

II) operating parameter points of the equipment: bus voltage (including phase voltage, line voltage), frequency; voltage, current, active power and reactive power of a power supply inlet wire; the current (the transformer can need the high-voltage side current, and can also need the high-voltage side and the low-voltage side), the active power and the reactive power at each load interval; current in bus-tie interval.

III) device metering parameter points: active and reactive electric energy of a power supply inlet wire; active power of load interval.

IV) the names, definitions and sequence lists of remote measurement, remote signaling and remote pulses collected by various devices in the transformer substation, and the names, definitions and sequence lists of remote control and remote regulation defined by the operation devices.

2) Setting n remote monitoring information points in EMS system, and establishing EMS system monitoring information point set B [ B ]₁,b₂，…，b_n]And storing the data in the EMS system monitoring information point table.

3) And the automatic debugging main system issues the EMS system monitoring information point table in the EMS system to the transformer substation module.

4) The transformer substation module checks the EMS system monitoring information point table and the transformer substation monitoring information point table and generates a corresponding relation between the EMS system monitoring information point table and the transformer substation monitoring information point table.

And the transformer substation module uploads the transformer substation monitoring information point table, the corresponding relation and the transformer substation monitoring information point table to the automatic debugging main system.

5) And the automatic debugging main system creates a debugging task according to the monitoring information point table and the corresponding relation of the transformer substation and sends the debugging task to the transformer substation module.

6) And the transformer substation module generates a driving signal according to the debugging task.

And the driving master control of the transformer substation sends monitoring alarm information to the EMS system and the automatic debugging main system according to the driving signal.

7) The automatic debugging main system compares the monitoring alarm content recorded by the EMS system and performs difference analysis by taking the monitoring alarm content which is directly received by the automatic debugging main system and passes the integrity verification as a reference, thereby completing debugging.

8) And after debugging is finished, automatically debugging the main system to generate a debugging report.

Claims (7)

1. Automatic debugging system of monitoring information, its characterized in that: the system mainly comprises an EMS system, a transformer substation module and an automatic debugging main system;

the EMS system sets a remote monitoring information point table and collects the monitoring information of the remote monitoring information points so as to generate the monitoring alarm content of the EMS system;

the transformer substation module is provided with a monitoring information point table, so that the monitoring information point table and the EMS monitoring information point table form a corresponding relation; the transformer substation module sends monitoring alarm content to an EMS system;

after checking the transformer substation monitoring information point table and the EMS system monitoring information point table, the transformer substation module sends the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table and the transformer substation monitoring information point table to the automatic debugging main system;

the transformer substation module sends monitoring alarm information to the EMS system and the automatic debugging main system respectively; the automatic debugging main system generates a debugging task according to the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table;

the automatic debugging main system receives the EMS system monitoring information point table and sends the EMS system monitoring information point table to the transformer substation module;

the automatic debugging main system issues a debugging task to the transformer substation module, and the transformer substation module generates monitoring alarm information;

the automatic debugging main system compares monitoring alarm information sent by the transformer substation module with monitoring alarm information received by the EMS system; if the monitoring alarm information sent by the transformer substation module is the same as the monitoring alarm information received by the EMS system, the information between the transformer substation and the EMS system is correctly debugged, and if the monitoring alarm information is different, the transformer substation formally operates and sends error information to the EMS system;

the automatic debugging main system mainly comprises a computer memory, a PC display screen, a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a remote signaling information management submodule I, a remote signaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II;

the computer memory stores the contents of a database, a debugging management main module, a telemetering information management submodule I, a telemetering information management submodule II, a remote signaling information management submodule I, a remote signaling information management submodule II, a debugging task management submodule I and a debugging task management submodule II;

the PC display screen displays interfaces of the debugging management main module, the telemetering information management sub-module I, the telemetering information management sub-module II, the telecommand information management sub-module I, the telecommand information management sub-module II, the debugging task management sub-module I and the debugging task management sub-module II;

the debugging management main module mainly displays a plurality of power supply bureaus;

each power supply station has a drop-down list which comprises a plurality of substations;

each transformer substation has a drop-down list, and the list comprises a plurality of transformer substation intervals;

the transformer substation is connected with a telemetry information management submodule I, a remote signaling information management submodule I and a debugging task management submodule I;

the telemetering information management submodule I displays the telemetering information of the transformer substation;

the remote signaling information management submodule I displays the remote signaling information of the transformer substation;

the debugging task management submodule I displays a transformer substation debugging task;

the transformer substation interval link remote measuring information management submodule II, a remote signaling information management submodule II and a debugging task management submodule II;

the telemetering information management submodule II displays substation interval telemetering information;

the remote signaling information management submodule II displays transformer substation interval remote signaling information;

the debugging task management submodule II displays transformer substation interval debugging tasks;

and completing the debugging of the automatic debugging main system and generating a debugging report.

2. The monitoring information automatic debugging system according to claim 1, characterized in that: the debugging task comprises a debugging point table consisting of a plurality of monitoring information points.

3. The monitoring information automatic debugging system according to claim 1, characterized in that:

the substation telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a substation to which the substation telemetering information description belongs;

the substation remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a substation to which the substation remote signaling information description belongs;

the transformer substation interval telemetering information mainly comprises a monitoring information point sequence number, telemetering information description and a transformer substation interval to which the telemetering information description belongs;

the transformer substation interval remote signaling information mainly comprises a monitoring information point sequence number, remote signaling information description and a transformer substation interval.

4. The monitoring information automatic debugging system according to claim 1, characterized in that: the debugging task management submodule I is provided with a creating button;

the substation debugging task is created or added through a creation button.

5. The monitoring information automatic debugging system according to claim 1, characterized in that: the debugging task management submodule I and the debugging task management submodule II are both provided with a newly added button;

and the monitoring information point is added into the debugging task through a newly added button.

6. The monitoring information automatic debugging system according to claim 1, characterized in that:

the EMS system monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point;

the transformer substation monitoring information point table mainly comprises a monitoring information point serial number and monitoring information corresponding to the monitoring information point

The debugging tasks mainly comprise debugging point serial numbers and debugging tasks corresponding to the debugging points.

7. The debugging method of the monitoring information automatic debugging system based on claims 1 to 6, characterized by mainly comprising the following steps:

1) setting n monitoring information points in the transformer substation, and establishing transformer substation monitorControl information point set A = [ a = [ a ]₁,a₂，…，a_n]And storing the information into a transformer substation monitoring information point table;

2) setting n remote monitoring information points in EMS system, establishing EMS system monitoring information point set B = [ B ]₁,b₂，…，b_n]And storing the data into an EMS system monitoring information point table;

3) the automatic debugging main system issues an EMS system monitoring information point table in the EMS system to the transformer substation module;

4) the transformer substation module checks the EMS system monitoring information point table and the transformer substation monitoring information point table and generates a corresponding relation between the EMS system monitoring information point table and the transformer substation monitoring information point table;

the transformer substation module uploads the corresponding relation between the transformer substation monitoring information point table and the EMS system monitoring information point table and the transformer substation monitoring information point table to the automatic debugging main system;

5) the automatic debugging main system creates a debugging task according to the monitoring information point table and the corresponding relation of the transformer substation and sends the debugging task to the transformer substation module;

6) the transformer substation module generates a driving signal according to the debugging task;

the transformer substation module drives the master control to send monitoring alarm information to the EMS system and the automatic debugging main system;

7) the automatic debugging main system compares the monitoring alarm content recorded by the EMS system and performs difference analysis by taking the monitoring alarm content which is directly received by the automatic debugging main system and passes the integrity verification as a reference so as to finish debugging;

8) and after debugging is finished, automatically debugging the main system to generate a debugging report.

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