CN213123418U - Loss reduction simulation training and competition platform based on service system acquisition and maintenance integration - Google Patents

Abstract

The utility model discloses a loss reduction simulation training and competition platform based on service system acquisition and maintenance integration, which comprises a practical training main control system and a single system, wherein the practical training main control system and the single system are interconnected; the practical training main control system comprises a main station layer, a background communication layer, a local control layer and an acquisition simulation layer, wherein the main station layer comprises a main control server, a simulation database and a plurality of multimedia teaching terminals. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration realizes simulation of various abnormal power utilization states of each section, and operators can experience various phenomena of the abnormal power utilization states in a real ground body; the electricity utilization inspection personnel can be placed on scene of abnormal state of supply and utilization of electricity in a situational manner, and under various abnormal conditions of knowing or not knowing, the electricity utilization inspection personnel is required to check the abnormal type through an electricity utilization inspection instrument tool so as to improve the actual combat level of technical and tactical practices of the electricity utilization inspection personnel.

Description

Loss reduction simulation training and competition platform based on service system acquisition and maintenance integration

Technical Field

The utility model relates to an electrical equipment technical field specifically is a reduce and decrease analog simulation training and contest platform based on business system adopts dimension integration.

Background

Starting from the ' power utilization link decomposition demonstration of a platform area and the ' operation training combining eyes, hands and brains ', the ' platform area power utilization abnormity simulation training device ' is developed and constructed, the platform highlights simulation and emulation from the form, and the practical operation and examination are fastened from the content, so that the professional skill training and practice level examination of various professional workers such as wiring and power connection, meter installation and debugging, electric energy metering, power utilization examination and the like can be met, the platform can help the workers to quickly master platform area power utilization examination knowledge, various power utilization examination instrument equipment installation and use and various abnormal data analysis and diagnosis capabilities, and the urgent requirements of platform area maintenance professional skills in enterprises are met; based on the technical scheme, a loss reduction simulation training and competition platform based on service system acquisition and maintenance integration is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reduce and decrease analog simulation training and contest platform based on business system adopts dimension integration, operating personnel can really experience all kinds of phenomena of power consumption abnormal state, can improve power consumption inspection personnel's technical and tactics real behaviour actual combat level, has solved the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: a loss reduction simulation training and competition platform based on service system acquisition and maintenance integration comprises a training main control system and a single system, wherein the training main control system and the single system are interconnected; the practical training master control system comprises a master station layer, a background communication layer, a local control layer and an acquisition simulation layer, wherein the master station layer comprises a master control server, a simulation database and a plurality of multimedia teaching terminals, and the plurality of multimedia teaching terminals are respectively marked as a multimedia teaching terminal A, a multimedia teaching terminal B and a multimedia teaching terminal N; the multimedia teaching terminal A, the multimedia teaching terminal B and the multimedia teaching terminal N are electrically connected with the master control server, and the master control server is electrically connected with the simulation database;

the background communication layer is composed of a TCP/IP wireless router, and the TCP/IP wireless router is interconnected with the main control server;

the local control layer consists of a plurality of local computer control ends, the local computer control ends are respectively marked as a local computer control end A, a local computer control end B-a local computer control end N, and the input ends of the local computer control end A, the local computer control end B-the local computer control end N are all interconnected with the TCP/IP wireless router;

the acquisition simulation layer consists of a plurality of high-supply low-metering type station area abnormal state detection actual operation ends, wherein the plurality of high-supply low-metering type station area abnormal state detection actual operation ends are respectively marked as a high-supply low-metering type station area abnormal state detection actual operation end A, a high-supply low-metering type station area abnormal state detection actual operation end B, a high-supply low-metering type station area abnormal state detection actual operation end N, a high-supply low-metering type station area abnormal state detection actual operation end A, a high-supply low-metering type station area abnormal state detection actual operation end B, and a high-supply low-metering type station area abnormal state detection actual operation end N;

the single system comprises a power bus, a metering loop, a signal acquisition and analysis module, a remote human-computer interaction interface, a program-controlled variable load and a local human-computer interaction interface, wherein the input end of the power bus is connected with the incoming line input of the bus, and the output end of the power bus is connected with the input end of the program-controlled variable load, the input end of the signal acquisition and analysis module and the input end of the metering loop; the metering loop is interconnected with the local control layer and is connected to the input end of the program-controlled variable load; the output end of the metering loop is connected with the input end of the signal acquisition and analysis module, the output end of the program-controlled variable load is connected with the input end of the signal acquisition and analysis module, the signal acquisition and analysis module is interconnected with the remote human-computer interaction interface, the output end of the local control layer is connected with the remote human-computer interaction interface, the output end of the remote human-computer interaction interface is connected with the input end of the local human-computer interaction interface, and the local human-computer interaction interface is interconnected with the local control layer.

Preferably, the metering loop comprises a CT, a PT, a junction box, an electric energy meter and a switch, the CT and the PT are electrically connected with the junction box, the junction box is electrically connected with the electric energy meter, and the electric energy meter is connected with the switch.

Preferably, the program-controlled variable load comprises a capacitor, a reactor, a harmonic generator, a resistive load box and a frequency modulation device, and the capacitor, the reactor, the harmonic generator, the resistive load box and the frequency modulation device are configured and output by adopting digital interface control.

Preferably, the local control layer is communicated with a remote human-computer interaction interface by RS485 communication.

Preferably, the signal acquisition and analysis module acquires a current and voltage value of the metering loop.

Preferably, the local human-computer interaction interface comprises keys and an upper computer data display, each key corresponds to an abnormal type, a mutual exclusion mode is adopted, and a background of the upper computer displays a measured current and voltage value and an analysis result.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration realizes simulation of various abnormal power utilization states of each section, and operators can experience various phenomena of the abnormal power utilization states in a real ground body; the electricity utilization inspection personnel can be placed on scene of abnormal state of supply and utilization of electricity in a situational manner, and under various abnormal conditions of knowing or not knowing, the electricity utilization inspection personnel is required to check the abnormal type through an electricity utilization inspection instrument tool so as to improve the actual combat level of technical and tactical practices of the electricity utilization inspection personnel.

Drawings

Fig. 1 is a logic diagram of a practical training main control system architecture of the present invention;

FIG. 2 is a logical view of a single system architecture of the present invention.

In the figure: 1. a training master control system; 11. a master station layer; 101. a master control server; 102. a simulation database; 12. a background communication layer; 13. a local control layer; 14. collecting a simulation layer; 2. a single system; 201. a power bus; 202. a metering circuit; 203. a signal acquisition and analysis module; 204. a remote human-computer interaction interface; 205. program-controlled variable loads; 206. and (4) local human-computer interaction interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a loss reduction simulation training and competition platform based on service system acquisition and maintenance integration comprises a training main control system 1 and a single system 2, wherein the training main control system 1 is interconnected with the single system 2; the practical training main control system 1 comprises a main station layer 11, a background communication layer 12, a local control layer 13 and an acquisition simulation layer 14, wherein the main station layer 11 comprises a main control server 101, a simulation database 102 and a plurality of multimedia teaching terminals, and the plurality of multimedia teaching terminals are respectively marked as a multimedia teaching terminal A, a multimedia teaching terminal B-a multimedia teaching terminal N; the multimedia teaching terminal A and the multimedia teaching terminal B-the multimedia teaching terminal N are electrically connected with the master control server 101, and the master control server 101 is electrically connected with the simulation database 102; the acquisition simulation layer 14 is used for acquiring the electrical parameter variation of the electrical circuit and controlling the electrical quantity variation of the electrical circuit to simulate various abnormal states; the local control layer 13 is used for controlling the change of the electrical quantity of the electrical loop by a computer, receiving a background master station instruction and displaying the control quantity of the background master station; the background communication layer 12 automatically establishes a wireless local area network and contacts a local computer to communicate with the main control server 101; the master station layer 11 calls database information, controls a remote local computer and communicates with other external teaching multimedia terminals; the background communication layer 12 is composed of a TCP/IP wireless router, and the TCP/IP wireless router is interconnected with the main control server 101.

Wherein: the local control layer 13 is composed of a plurality of local computer control terminals, which are respectively marked as a local computer control terminal A, a local computer control terminal B-a local computer control terminal N, and the input ends of the local computer control terminal A, the local computer control terminal B-the local computer control terminal N are all interconnected with the TCP/IP wireless router; the acquisition simulation layer 14 is composed of a plurality of high-supply low-metering area abnormal state detection actual operation ends, which are respectively marked as a high-supply low-metering area abnormal state detection actual operation end a, a high-supply low-metering area abnormal state detection actual operation end B-a high-supply low-metering area abnormal state detection actual operation end N, a high-supply low-metering area abnormal state detection actual operation end a, a high-supply low-metering area abnormal state detection actual operation end B-a high-supply low-metering area abnormal state detection actual operation end N.

Wherein: the monomer system 2 comprises a power bus 201, a metering loop 202, a signal acquisition and analysis module 203, a remote human-computer interaction interface 204, a program-controlled variable load 205 and a local human-computer interaction interface 206, wherein the input end of the power bus 201 is connected with the bus incoming line input, and the output end of the power bus 201 is connected to the input end of the program-controlled variable load 205, the input end of the signal acquisition and analysis module 203 and the input end of the metering loop 202; the metering loop 202 is interconnected with the local control layer 13 and is connected to the input of the programmable variable load 205; the output end of the metering loop 202 is connected with the input end of the signal acquisition and analysis module 203, the output end of the program-controlled variable load 205 is connected with the input end of the signal acquisition and analysis module 203, the signal acquisition and analysis module 203 is interconnected with the remote human-computer interaction interface 204, the output end of the local control layer 13 is connected with the remote human-computer interaction interface 204, the output end of the remote human-computer interaction interface 204 is connected with the input end of the local human-computer interaction interface 206, and the local human-computer interaction interface 206 is interconnected with the local control layer 13.

Wherein: the metering loop 202 comprises a CT, a PT, a junction box, an electric energy meter and a switch, wherein the CT and the PT are electrically connected with the junction box, the junction box is electrically connected with the electric energy meter, and the electric energy meter is connected with the switch; the flow direction of a loop signal is changed by switching a switch, and the occurrence of an abnormality is simulated;

wherein: the programmable variable load 205 comprises a capacitor, a reactor, a harmonic generator, a resistive load box and a frequency modulation device, and the capacitor, the reactor, the harmonic generator, the resistive load box and the frequency modulation device are configured and output by adopting digital interface control.

Wherein: the local control layer 13 communicates with the remote human-computer interaction interface 204 by adopting RS485 communication, sends a control command by RS485 communication, drives the switch on the metering loop 202 to be switched, and controls the switch by a key of the local human-computer interaction interface 206;

wherein: the signal acquisition and analysis module 203 acquires the current and voltage values of the metering loop 202, analyzes the signal characteristics of the acquired signals through an algorithm, compares the signal characteristics with standard parameters, and determines the abnormal type.

Wherein: the local human-computer interaction interface 206 comprises keys and upper computer data display, each key corresponds to an abnormal type, a mutual exclusion mode is adopted, and the upper computer background displays a measured current and voltage value and an analysis result.

The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration is used for simulating simulation experiments in an abnormal power utilization state and simulating practical operation in power utilization inspection in the abnormal power utilization state;

simulation experiment of abnormal power consumption state:

the power consumption abnormal state simulation experiment function is completed by the power consumption abnormal state simulation screen, and the purpose is to place professional workers such as power consumption inspection, electric energy metering, meter installation and power connection on the site of the power consumption abnormal state, realize various power consumption abnormal states through personal and manual simulation, and improve the cognitive level of power consumption abnormal characteristics.

An operator can change the characteristics of the power supply and metering loop 202 section by section through links such as a power supply side, a primary transformer side, a secondary loop side, a junction box side and an electric energy meter side in modes such as wire plugging and unplugging, key control and remote control, and the like, so that the analog simulation of various abnormal power utilization states of each section is realized; meanwhile, the screen body is embedded with a corresponding abnormal state data algorithm model, the data characteristics and the graphs of various abnormal states are displayed through a software interface after the data algorithm model is processed by a computer, and the operation and the brain are effectively combined together through the two forms, so that an operator can really experience various phenomena of abnormal power utilization states.

And (3) power utilization inspection simulation real operation in an electrical abnormal state:

the power supply and utilization abnormal state simulation actual operation function is completed by the power utilization inspection simulation actual operation screen, and aims to place a power utilization inspector on a situational power supply and utilization abnormal state site, and require the power utilization inspector to check the abnormal type through a power utilization inspection instrument under various abnormal conditions of knowing or unknowing so as to improve the technical and tactical actual operation level of the power utilization inspector.

In summary, the following steps: the loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration realizes simulation of various abnormal power utilization states of each section, and operators can experience various phenomena of the abnormal power utilization states in a real ground body; the electricity utilization inspection personnel can be placed on scene of abnormal state of supply and utilization of electricity in a situational manner, and under various abnormal conditions of knowing or not knowing, the electricity utilization inspection personnel is required to check the abnormal type through an electricity utilization inspection instrument tool so as to improve the actual combat level of technical and tactical practices of the electricity utilization inspection personnel.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a loss reduction simulation training and competition platform based on integration of business system collection dimension, includes real standard major control system (1) and monomer system (2), its characterized in that: the practical training main control system (1) is interconnected with the single body system (2); the practical training master control system (1) comprises a master station layer (11), a background communication layer (12), a local control layer (13) and an acquisition simulation layer (14), wherein the master station layer (11) comprises a master control server (101), a simulation database (102) and a plurality of multimedia teaching terminals, and the multimedia teaching terminals are respectively marked as a multimedia teaching terminal A, a multimedia teaching terminal B and a multimedia teaching terminal N; the multimedia teaching terminal A and the multimedia teaching terminal B-the multimedia teaching terminal N are electrically connected with the master control server (101), and the master control server (101) is electrically connected with the simulation database (102);

the background communication layer (12) is composed of a TCP/IP wireless router, and the TCP/IP wireless router is interconnected with the main control server (101);

the local control layer (13) is composed of a plurality of local computer control ends, the local computer control ends are respectively marked as a local computer control end A, a local computer control end B-a local computer control end N, and the input ends of the local computer control end A, the local computer control end B-the local computer control end N are all interconnected with the TCP/IP wireless router;

the acquisition simulation layer (14) consists of a plurality of high-supply low-metering type station area abnormal state detection actual operation ends, wherein the plurality of high-supply low-metering type station area abnormal state detection actual operation ends are respectively marked as a high-supply low-metering type station area abnormal state detection actual operation end A, a high-supply low-metering type station area abnormal state detection actual operation end B-a high-supply low-metering type station area abnormal state detection actual operation end N, a high-supply low-metering type station area abnormal state detection actual operation end A, a high-supply low-metering type station area abnormal state detection actual operation end B-a high-supply low-metering type station area abnormal state detection actual operation end N;

the single system (2) comprises a power bus (201), a metering loop (202), a signal acquisition and analysis module (203), a remote man-machine interaction interface (204), a program-controlled variable load (205) and a local man-machine interaction interface (206), wherein the input end of the power bus (201) is connected with the bus incoming line input, the output end of the power bus (201) is connected to the input end of the program-controlled variable load (205), the input end of the signal acquisition and analysis module (203) and the input end of the metering loop (202); the metering loop (202) is interconnected with the local control layer (13) and is connected to the input end of the programmable variable load (205); the output end of the metering loop (202) is connected with the input end of the signal acquisition and analysis module (203), the output end of the program-controlled variable load (205) is connected with the input end of the signal acquisition and analysis module (203), the signal acquisition and analysis module (203) is interconnected with the remote human-computer interaction interface (204), the output end of the local control layer (13) is connected with the remote human-computer interaction interface (204), the output end of the remote human-computer interaction interface (204) is connected with the input end of the local human-computer interaction interface (206), and the local human-computer interaction interface (206) is interconnected with the local control layer (13).

2. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration, as claimed in claim 1, wherein: the metering loop (202) comprises a CT, a PT, a junction box, an electric energy meter and a switch, wherein the CT and the PT are electrically connected with the junction box, the junction box is electrically connected with the electric energy meter, and the electric energy meter is connected with the switch.

3. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration, as claimed in claim 1, wherein: the program-controlled variable load (205) comprises a capacitor, a reactor, a harmonic generator, a resistance load box and a frequency modulation device, wherein the capacitor, the reactor, the harmonic generator, the resistance load box and the frequency modulation device are configured and output by adopting digital interface control.

4. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration, as claimed in claim 1, wherein: and the local control layer (13) is communicated with a remote man-machine interaction interface (204) by RS485 communication.

5. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration, as claimed in claim 1, wherein: the signal acquisition and analysis module (203) acquires the current and voltage values of the metering loop (202).

6. The loss reduction simulation training and competition platform based on the service system acquisition and maintenance integration, as claimed in claim 1, wherein: the local man-machine interaction interface (206) comprises keys and upper computer data display, each key corresponds to an abnormal type, a mutual exclusion mode is adopted, and the upper computer background displays a measured current and voltage value and an analysis result.

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