CN210895947U - Real platform of instructing of distribution network automation equipment - Google Patents

Abstract

The utility model discloses a real training platform of distribution network automation equipment, which comprises a fault simulation generator, a simulation master station and a single-connection simulation circuit; the simulation master station is connected with the single-connection simulation line; the fault simulation generator is electrically connected with the single-connection simulation line. The utility model provides a real standard platform of distribution network automation equipment has solved the not enough of traditional distribution network automation training existence, has promoted distribution network automation training quality and distribution network automation fortune dimension personnel's technical skill level conscientiously, for on a large scale, the high speed impels smart power grids construction and has established solid talent foundation.

Description

Real platform of instructing of distribution network automation equipment

Technical Field

The utility model relates to real standard equipment field of electric and electrical, more specifically, real standard platform of distribution network automation equipment.

Background

With the rapid advance of the urbanization construction process, the increasingly-growing distribution network automation equipment is widely applied to the smart power grid. Because the distribution network automation equipment has a large quantity and a wide model, and depends on core technologies such as modernization information, communication, control and the like, the distribution network automation equipment provides new requirements for the technical skill level of operation and maintenance personnel. As the traditional automatic equipment training has the problems of single teaching content, lack of practical operation opportunities and the like, the automatic training quality of the distribution network is difficult to ensure and the success rate is low. The huge demand on the distribution network automation talents and the laggard distribution network automation operation and maintenance technical level are raised to be the main contradictions of the distribution network automation construction work.

SUMMERY OF THE UTILITY MODEL

To prior art at the technical defect that distribution network automation training quality is low, lack the chance of practising the skill, the utility model provides a real platform of instructing of distribution network automation equipment, the utility model discloses a technical scheme be:

a distribution network automation equipment training platform comprises a fault simulation generator, a simulation master station and a single-connection simulation line; the simulation master station is connected with the single-connection simulation line; the fault simulation generator is electrically connected with the single-connection simulation line.

The utility model discloses in the use, event mode simulation generator carries out the electricity with single connection analog line and is connected, and fault simulation generator carries out the fault simulation, and single connection analog line is to receiving fault simulation generator's output current to transmit relevant data to the simulation main website through communication connection.

In a preferred scheme, the single-connection analog circuit comprises a plurality of automatic circuit breaker switches, a plurality of automatic load switches and a plurality of FTUs; the FTU is connected with the automatic breaker switch and the automatic load switch, and is used for setting parameters of switch actions; the FTU is connected with the simulation master station, and the fault simulation generator is connected to the FTU in a wired mode. The fault simulation generator is connected to an input terminal of a measuring current transformer of the FTU in a wired mode, the FTU can receive the current amount output by the fault simulation generator through the measuring current transformer, and if the current amount meets the conditions set in the FTU, the FTU transmits an action signal to the automatic switch, and the automatic breaker switch or the automatic load switch generates action.

In a preferred scheme, the fault simulation generator further comprises a feedback node, and the fault adding end condition is carried out through actual switching on and switching off of the switch.

In a preferred scheme, the connection mode between the FTU and the analog master station includes a wired connection and a wireless connection.

In a preferable scheme, the wired connection is that the FTU performs data transmission with the analog master station through an optical fiber or a network cable, and the wireless connection is that the FTU performs data transmission with the analog master station through a GPRS wireless communication module or a 4G wireless communication module.

In a preferred scheme, the FTU is a mechanism with three remote functions.

In a preferred scheme, the platform is connected with an external high-voltage wire, and the platform is powered by high-voltage power supply.

In a preferred scheme, the platform is connected with an external solar panel, and the solar panel supplies power to the platform.

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

the utility model provides a real standard platform of distribution network automation equipment has solved the not enough of traditional distribution network automation training existence, has promoted distribution network automation training quality and distribution network automation fortune dimension personnel's technical skill level conscientiously, for on a large scale, the high speed impels smart power grids construction and has established solid talent foundation.

Drawings

Fig. 1 is the utility model provides a distribution network automation equipment training platform's schematic diagram.

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, which are used for illustration only and are not to be construed as limitations of the present patent. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

Example 1

A distribution network automation equipment training platform comprises a fault simulation generator, a simulation master station and a single-connection simulation line; the simulation master station is connected with the single-connection simulation line; the fault simulation generator is electrically connected with the single-connection simulation line.

The utility model discloses in the use, event mode simulation generator carries out the electricity with single connection analog line and is connected, and fault simulation generator carries out the fault simulation, and single connection analog line is to receiving fault simulation generator's output current to transmit relevant data to the simulation main website through communication connection.

In a preferred scheme, the single-connection analog circuit comprises a plurality of automatic circuit breaker switches, a plurality of automatic load switches and a plurality of FTUs; the FTU is connected with the automatic breaker switch and the automatic load switch, and is used for setting parameters of switch actions; the FTU is connected with the simulation master station, and the fault simulation generator is connected to the FTU in a wired mode. The fault simulation generator is connected to an input terminal of a measuring current transformer of the FTU in a wired mode, the FTU can receive the current amount output by the fault simulation generator through the measuring current transformer, and if the current amount meets the conditions set in the FTU, the FTU transmits an action signal to the automatic switch, and the automatic breaker switch or the automatic load switch generates action.

In a preferred scheme, the fault simulation generator further comprises a feedback node, and the fault adding end condition is carried out through actual switching on and switching off of the switch.

In a preferred scheme, the connection mode between the FTU and the analog master station includes a wired connection and a wireless connection.

In a preferable scheme, the wired connection is that the FTU performs data transmission with the analog master station through an optical fiber or a network cable, and the wireless connection is that the FTU performs data transmission with the analog master station through a GPRS wireless communication module or a 4G wireless communication module.

In a preferred scheme, the FTU is a mechanism with three remote functions.

In a preferred scheme, the platform is connected with an external high-voltage wire, and the platform is powered by high-voltage power supply.

In a preferred scheme, the platform is connected with an external solar panel, and the solar panel supplies power to the platform.

Example 2

The embodiment provides a distribution network automation equipment training platform consistent with embodiment 1, and only a single-connection analog line is further limited.

A distribution network automation equipment training platform comprises a fault simulation generator, a simulation master station and a single-connection simulation line; the simulation master station is connected with the single-connection simulation line; the fault simulation generator is electrically connected with the single-connection simulation line.

The utility model discloses in the use, event mode simulation generator carries out the electricity with single connection analog line and is connected, and fault simulation generator carries out the fault simulation, and single connection analog line is to receiving fault simulation generator's output current to transmit relevant data to the simulation main website through communication connection. The simulation master station establishes a graph model for each FTU terminal, and messages of the FTUs can be inquired in the simulation master station. In addition, training personnel can inquire the state of the FTU terminal and the SOE message uploaded by the FTU terminal after fault simulation occurs in real time through the distribution network master station system, and simulation training of a line fault troubleshooting process is achieved.

In a preferred scheme, the single-connection analog circuit comprises a plurality of automatic circuit breaker switches, a plurality of automatic load switches and a plurality of FTUs; the FTU is connected with the automatic breaker switch and the automatic load switch, and is used for setting parameters of switch actions; the FTU is connected with the simulation master station, and the fault simulation generator is connected to the FTU in a wired mode. The fault simulation generator is connected to an input terminal of a measuring current transformer of the FTU in a wired mode, the FTU can receive the current amount output by the fault simulation generator through the measuring current transformer, and if the current amount meets the conditions set in the FTU, the FTU transmits an action signal to the automatic switch, and the automatic breaker switch or the automatic load switch generates action.

In a preferred scheme, the fault simulation generator further comprises a feedback node, and the fault adding end condition is carried out through actual switching on and switching off of the switch.

In a preferred scheme, the connection mode between the FTU and the analog master station includes a wired connection and a wireless connection.

In a preferable scheme, the wired connection is that the FTU performs data transmission with the analog master station through an optical fiber or a network cable, and the wireless connection is that the FTU performs data transmission with the analog master station through a GPRS wireless communication module or a 4G wireless communication module.

In a preferred scheme, the FTU is a mechanism with three remote functions.

In a preferred scheme, the platform is connected with an external high-voltage wire, and the platform is powered by high-voltage power supply.

In a preferred scheme, the platform is connected with an external solar panel, and the solar panel supplies power to the platform.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (7)

1. A distribution network automation equipment training platform is characterized by comprising a fault simulation generator, a simulation master station and a single-connection simulation line; the simulation master station is connected with the single-connection simulation line; the fault simulation generator is electrically connected with the single-connection simulation line.

2. The distribution network automation equipment training platform of claim 1, wherein the single-tap analog line comprises a plurality of automatic circuit breaker switches, a plurality of automatic load switches, and a plurality of FTUs; the FTU is connected with the automatic breaker switch and the automatic load switch, and is used for setting parameters of switch actions; the FTU is connected with the simulation master station, and the fault simulation generator is connected to the FTU in a wired mode.

3. The practical training platform for distribution network automation equipment according to claim 2, wherein the connection mode between the FTU and the analog master station comprises wired connection and wireless connection.

4. The practical training platform for distribution network automation equipment according to claim 3, wherein the wired connection is that the FTU performs data transmission with the simulation master station through an optical fiber or a network cable, and the wireless connection is that the FTU performs data transmission with the simulation master station through a GPRS wireless communication module or a 4G wireless communication module.

5. The distribution network automation device training platform of claim 2, wherein the FTU is a mechanism with three-remote function.

6. The distribution network automation equipment training platform of claim 1, wherein the platform is connected to an external high voltage line and is powered by high voltage power.

7. The distribution network automation equipment training platform of claim 1, wherein the platform is connected to an external solar panel, and the solar panel supplies power to the platform.

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