CN117706990A - Intelligent platform area comprehensive application monitoring system - Google Patents

Abstract

The invention provides an intelligent platform comprehensive application monitoring system, which is used for executing an intelligent platform comprehensive application monitoring method, and comprises a server, a data acquisition module, a power distribution room monitoring module, a power utilization side monitoring module, an alarm management module and an optimization module, wherein the method comprises the following steps: the data acquisition module acquires the data of the platform area; the power distribution room monitoring module starts a power distribution room monitoring strategy according to the acquired data of the transformer area; the power utilization side monitoring module starts a power utilization side monitoring strategy according to the acquired data of the platform area; the alarm module analyzes according to the started monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side, and obtains an alarm analysis result; and the optimizing module optimizes the monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side according to the alarm analysis result. The invention can discover abnormal running conditions of the transformer area in time by collecting the data of the power distribution transformer area equipment, and further can rapidly take corresponding strategies and optimization strategies, thereby ensuring the stable running of the transformer area.

Description

Intelligent platform area comprehensive application monitoring system

Technical Field

The invention relates to the technical field of monitoring of a platform area, in particular to an intelligent comprehensive application monitoring system for the platform area.

Background

The application background of the intelligent platform comprehensive application monitoring system can be traced to the intelligent monitoring technology which appears in recent years along with the development of the Internet of things and the artificial intelligent technology. The traditional monitoring mode generally needs manual inspection or real-time monitoring by using a camera, but the method has the problems of blind areas, missing report and the like. Therefore, real-time monitoring and early warning of equipment, places and the like are difficult to realize through network connection and data analysis technology, and stable operation of a platform area is difficult to ensure.

Disclosure of Invention

Accordingly, the present invention is directed to an intelligent platform comprehensive application monitoring system, which at least solves the above problems.

The technical scheme adopted by the invention is as follows:

the system is used for executing an intelligent platform comprehensive application monitoring method, and comprises a server, a data acquisition module, a power distribution room monitoring module, a power utilization side monitoring module, an alarm management module and an optimization module, wherein the method comprises the following steps:

s1, a data acquisition module acquires data of a platform area;

s2, a power distribution room monitoring module starts a power distribution room monitoring strategy according to the acquired data of the transformer area;

s3, the power utilization side monitoring module starts a power utilization side monitoring strategy according to the acquired data of the platform area;

s4, the alarm module analyzes according to the started monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side, and an alarm analysis result is obtained;

and S5, the optimizing module optimizes the monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side according to the alarm analysis result.

Further, in step S1, the bay data includes a transformer, a power supply network, a bay environment, a current, a voltage, and a power.

Further, in step S2, the method further includes the sub-steps of:

s21, if the number of times that the server does not pass through the power supply network exceeds a set ping threshold, the server is communicated with a power distribution room monitoring module through a Beidou communication technology, power supply network equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a restarting strategy of the power supply network of the power distribution room;

s22, if the acquisition module acquires that the fire environment of the platform area is abnormal through the smoke sensor, the server is communicated with the power distribution room monitoring module through the Beidou communication technology, the fire security monitoring equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a fire security measure strategy of the power distribution room.

Further, in step S3, the power consumption side monitoring module performs a power consumption side monitoring policy according to the collected data of the platform area;

the data acquisition module is used for acquiring a branch load result by setting current, voltage and power and analyzing the acquired current, voltage and power exceeding current, voltage and power thresholds, and starting an electric side monitoring transformer outgoing line strategy.

Further, in step S4, the alarm module analyzes according to the started monitoring policy of the power distribution room and the monitoring policy of the power utilization side, and the alarm analysis result is specifically:

the alarm module analyzes the power supply network, the power distribution room fire and the transformer outgoing line according to the restarting strategy of the power distribution room power supply network, the fire security measure strategy of the power distribution room and the transformer outgoing line strategy monitored by the power utilization side, and obtains alarm results of the power supply network, the power distribution room fire and the transformer outgoing line respectively.

Further, in step S5, the optimizing module optimizes the monitoring policy of the power distribution room and the monitoring policy of the power utilization side according to the alarm analysis result specifically includes:

the optimization module performs a restarting optimization strategy of the power supply network of the power distribution room according to the power supply network alarming result;

the optimizing module performs fire security measure optimizing strategies of the power distribution room according to the fire alarming result of the power distribution room;

and the optimization module performs transformer outgoing line optimization strategy on the electricity utilization side according to the transformer outgoing line alarm result.

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

the invention can discover abnormal running conditions of the transformer area in time by collecting the data of the power distribution transformer area equipment, and further can rapidly take corresponding strategies and optimization strategies, thereby ensuring the stable running of the transformer area.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an overall structure of an intelligent platform comprehensive application monitoring system according to an embodiment of the present invention.

Fig. 2 is a schematic overall flow chart of an intelligent integrated application monitoring method for an intelligent integrated application monitoring system according to an embodiment of the present invention.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the illustrated embodiments are provided for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

Referring to fig. 1 and 2, the present invention provides a system for monitoring an integrated application of an intelligent substation, for executing a method for monitoring an integrated application of an intelligent substation, where the system includes a server, a data acquisition module, a power distribution room monitoring module, a power utilization side monitoring module, an alarm management module, and an optimization module, and the method includes the following steps:

s1, a data acquisition module acquires data of a platform area;

s2, a power distribution room monitoring module starts a power distribution room monitoring strategy according to the acquired data of the transformer area;

s3, the power utilization side monitoring module starts a power utilization side monitoring strategy according to the acquired data of the platform area;

s4, the alarm module analyzes according to the started monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side, and an alarm analysis result is obtained;

and S5, the optimizing module optimizes the monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side according to the alarm analysis result.

For example, in order to ensure the stable running of the platform region, the data of the platform region can be collected through the data collection module, the collected data of the platform region can be started by the power distribution room monitoring module to start the power distribution room monitoring strategy, the power utilization side monitoring module can also be used for starting the power utilization side monitoring strategy, the adopted strategy can be used for adopting a corresponding strategy aiming at the abnormal running condition of the platform region, the adopted strategy can be analyzed by the alarm module to obtain an alarm analysis result, and the adopted strategy is optimized through the optimization module corresponding to the alarm analysis result, so that the stable running of the platform region can be ensured.

In step S1, the bay data includes transformers, power supply networks, bay environments, currents, voltages and power.

By way of example, transformers, power supply networks, district environments, currents, voltages and power through the collection district can be used as a data support for starting a power distribution room monitoring strategy and starting a power utilization side monitoring strategy.

The step S2 further includes the sub-steps of:

s21, if the number of times that the server does not pass through the power supply network exceeds a set ping threshold, the server is communicated with a power distribution room monitoring module through a Beidou communication technology, power supply network equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a restarting strategy of the power supply network of the power distribution room;

s22, if the acquisition module acquires that the fire environment of the platform area is abnormal through the smoke sensor, the server is communicated with the power distribution room monitoring module through the Beidou communication technology, the fire security monitoring equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a fire security measure strategy of the power distribution room.

For example, for monitoring a power supply network of a power distribution room, a server can perform ping on the power distribution network, if the number of times that the server does not ping the power supply network exceeds a set ping threshold, the server communicates with a power distribution room monitoring module through a Beidou communication technology, the power distribution room monitoring module controls power supply network equipment of the power distribution room, a restarting strategy of the power distribution room power supply network is started through the power distribution room monitoring module, the power supply network is awakened through the restarting mode, if the problem of the power supply network is not solved, the server distributes the problem of the power supply network to a worker in a form of a work order, the worker solves the problem on site, and the ping threshold is autonomously set by the worker according to actual conditions; if smoke sensor of platform district detects the condition of a fire, then the server passes through big dipper communication technique intercommunication electricity distribution room monitoring module, through the condition of a fire security monitoring equipment of electricity distribution room monitoring module control, can be with the audio-visual specific condition of looking over the electricity distribution room of form through security equipment, by, the condition of a fire security measure strategy of electricity distribution room that electricity distribution room monitoring module starts the electricity distribution room again, can protect the equipment safety of electricity distribution room through the condition of a fire security measure strategy.

In step S3, the power consumption side monitoring module performs a power consumption side monitoring strategy according to the collected data of the platform area;

the data acquisition module is used for acquiring a branch load result by setting current, voltage and power and analyzing the acquired current, voltage and power exceeding current, voltage and power thresholds, and starting an electric side monitoring transformer outgoing line strategy.

For example, for monitoring of the electricity side, the data acquisition module may compare the acquired current, voltage and power data with the set current, voltage and power threshold, and if the current, voltage and power threshold is exceeded, the current, voltage and power are analyzed to obtain the branch load result, and the electricity side monitoring transformer outlet strategy is started, so that the stable operation of the transformer area can be ensured through the transformer outlet strategy.

In step S4, the alarm module analyzes according to the started monitoring policy of the power distribution room and the monitoring policy of the power utilization side, and the alarm analysis result is specifically:

the alarm module analyzes the power supply network, the power distribution room fire and the transformer outgoing line according to the restarting strategy of the power distribution room power supply network, the fire security measure strategy of the power distribution room and the transformer outgoing line strategy monitored by the power utilization side, and obtains alarm results of the power supply network, the power distribution room fire and the transformer outgoing line respectively.

The alarm module can analyze the power supply network, the fire of the power distribution room and the outgoing line of the transformer according to the restarting strategy of the power supply network of the power distribution room, the fire security measure strategy of the power distribution room and the outgoing line strategy of the transformer, so that the alarm results of the power supply network, the fire of the power distribution room and the outgoing line of the transformer are obtained, and corresponding strategy optimization can be carried out through the alarm results of the power supply network, the fire of the power distribution room and the outgoing line of the transformer.

In step S5, the optimizing module optimizes the monitoring policy of the power distribution room and the monitoring policy of the power utilization side according to the alarm analysis result specifically includes:

the optimization module performs a restarting optimization strategy of the power supply network of the power distribution room according to the power supply network alarming result;

the optimizing module performs fire security measure optimizing strategies of the power distribution room according to the fire alarming result of the power distribution room;

and the optimization module performs transformer outgoing line optimization strategy on the electricity utilization side according to the transformer outgoing line alarm result.

For the alarm result of the power supply network, an optimization module can perform a restarting optimization strategy of the power supply network, namely, detect the operability of the power supply network equipment and adjust a ping threshold; for a fire alarm result, an optimization module can be used for carrying out a fire security measure optimization strategy, namely, when a fire occurs, the operation data of the station area equipment are backed up; for the transformer outgoing line alarming result, an optimization module can be used for carrying out a transformer outgoing line optimization strategy, namely the outgoing line of the transformer can be reduced.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. The system is used for executing an intelligent platform comprehensive application monitoring method, and comprises a server, a data acquisition module, a power distribution room monitoring module, a power utilization side monitoring module, an alarm management module and an optimization module, wherein the method comprises the following steps:

s1, a data acquisition module acquires data of a platform area;

s2, a power distribution room monitoring module starts a power distribution room monitoring strategy according to the acquired data of the transformer area;

s3, the power utilization side monitoring module starts a power utilization side monitoring strategy according to the acquired data of the platform area;

s4, the alarm module analyzes according to the started monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side, and an alarm analysis result is obtained;

and S5, the optimizing module optimizes the monitoring strategy of the power distribution room and the monitoring strategy of the power utilization side according to the alarm analysis result.

2. The intelligent substation integrated application monitoring system according to claim 1, wherein in step S1, the substation data includes transformers, power supply network, substation environment, current, voltage and power.

3. The intelligent site integrated application monitoring system of claim 2, further comprising the sub-steps of:

s21, if the number of times that the server does not pass through the power supply network exceeds a set ping threshold, the server is communicated with a power distribution room monitoring module through a Beidou communication technology, power supply network equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a restarting strategy of the power supply network of the power distribution room;

s22, if the acquisition module acquires that the fire environment of the platform area is abnormal through the smoke sensor, the server is communicated with the power distribution room monitoring module through the Beidou communication technology, the fire security monitoring equipment of the power distribution room is controlled through the power distribution room monitoring module, and the power distribution room monitoring module starts a fire security measure strategy of the power distribution room.

4. The intelligent integrated application monitoring system of claim 3, wherein in step S3, the power consumption side monitoring module performs a power consumption side monitoring strategy according to the collected data of the area, specifically;

the data acquisition module is used for acquiring a branch load result by setting current, voltage and power and analyzing the acquired current, voltage and power exceeding current, voltage and power thresholds, and starting an electric side monitoring transformer outgoing line strategy.

5. The intelligent transformer area comprehensive application monitoring system according to claim 4, wherein in step S4, the alarm module analyzes according to the started monitoring policy of the power distribution room and the monitoring policy of the power utilization side, and the alarm analysis result is specifically:

the alarm module analyzes the power supply network, the power distribution room fire and the transformer outgoing line according to the restarting strategy of the power distribution room power supply network, the fire security measure strategy of the power distribution room and the transformer outgoing line strategy monitored by the power utilization side, and obtains alarm results of the power supply network, the power distribution room fire and the transformer outgoing line respectively.

6. The intelligent transformer area comprehensive application monitoring system according to claim 5, wherein in step S5, the optimizing module optimizes the monitoring policy of the power distribution room and the monitoring policy of the power utilization side according to the alarm analysis result specifically comprises:

the optimization module performs a restarting optimization strategy of the power supply network of the power distribution room according to the power supply network alarming result;

the optimizing module performs fire security measure optimizing strategies of the power distribution room according to the fire alarming result of the power distribution room;

and the optimization module performs transformer outgoing line optimization strategy on the electricity utilization side according to the transformer outgoing line alarm result.