CN111987896B - Converter valve return inspection framework for realizing online replacement of VBE light receiving plate - Google Patents

Abstract

The invention relates to a converter valve return inspection framework for realizing online replacement of a VBE light receiving plate, which comprises a thyristor electronic plate in signal connection with a converter valve, and the thyristor electronic plate comprises a VBE main system and a VBE standby system, wherein the VBE main system is provided with a first light receiving plate, the VBE standby system is provided with a second light receiving plate, both the first light receiving plate and the second light receiving plate are connected with an optical splitter, and the optical splitter is connected with the thyristor electronic plate. By adopting the technical scheme, the risk that the direct current transmission system is forced to stop running is reduced, and the running reliability of the converter valve is improved; meanwhile, the on-line replacement of the light receiving plate during the failure is realized.

Description

Converter valve return inspection framework for realizing online replacement of VBE light receiving plate

Technical Field

The invention relates to the technical field of thyristors of converter valves of power systems, in particular to a converter valve return inspection framework for realizing online replacement of a VBE light receiving plate.

Background

In the existing (special) high-voltage direct-current system power transmission system, a thyristor Electronic board sends a return detection signal to a light receiving board of Valve Base Electronic equipment (VBE) through an optical fiber, and the light receiving board sends the return detection signal to the VBE system.

The problem of the framework is that two sets of redundant VBE systems share one light receiving plate, whether the return detection signals of the valves are normal or not needs to be monitored in real time when the converter valves run, and when the light receiving plate fails, the converter valves are forced to stop running due to the fact that the return detection signals cannot be received.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a converter valve return inspection framework for realizing online replacement of a VBE light receiving plate, which has the advantage of realizing online replacement when the light receiving plate fails and improves the operation reliability of the converter valve.

In order to achieve the purpose, the invention provides the following technical scheme:

a converter valve rechecking framework for realizing online replacement of a VBE light receiving plate comprises a thyristor electronic plate in signal connection with a converter valve, and the thyristor electronic plate comprises a VBE main system and a VBE standby system, wherein the VBE main system is provided with a first light receiving plate, the VBE standby system is provided with a second light receiving plate, the first light receiving plate and the second light receiving plate are both connected with a light splitter, and the light splitter is connected with the thyristor electronic plate.

By adopting the technical scheme, when the first light receiving plate has a fault, the return detection of the converter valve is automatically switched to the VBE standby system for operation, namely, the return detection signal is transmitted to the second light receiving plate through the optical splitter, so that the possibility of the shutdown of the converter valve is reduced, the risk of forced shutdown of a direct-current power transmission system is reduced, and the operation reliability of the converter valve is improved; meanwhile, hardware independence redundancy of the light receiving plate is realized, and online replacement of the light receiving plate in case of failure is realized.

The invention is further configured to: and the screen cabinets of the VBE main system and the VBE standby system are both arranged in a control room or a protection room of the convertor station.

By adopting the technical scheme, the screen cabinets of the VBE main system and the VBE standby system are both arranged in the control room or the protection room of the convertor station, so that the VBE main system and the VBE standby system are not easy to be damaged, and the safety and the reliability of the VBE main system and the VBE standby system are improved.

The invention is further configured to: when the first light receiving plate has a fault, the converter valve return inspection framework is automatically switched from the VBE main system to the VBE standby system.

By adopting the technical scheme, the converter valve return inspection framework is automatically switched from the VBE main system to the VBE standby system, so that the workload of maintenance personnel is reduced, the VBE main system can be switched to the VBE standby system at the first time when the VBE main system fails, and the efficiency of the return inspection framework is improved; meanwhile, online replacement of the light receiving plate during failure is realized.

In conclusion, the invention has the following beneficial effects:

1. when the first light receiving plate has a fault, the converter valve return detection is automatically switched to a VBE standby system for operation, namely, a return detection signal is transmitted to the second light receiving plate through the optical splitter, so that the possibility of stopping the converter valve is reduced, the risk of forced stopping of a direct-current power transmission system is reduced, and the operation reliability of the converter valve is improved; meanwhile, hardware independent redundancy of the light receiving plate is realized, and online replacement of the light receiving plate in case of failure is realized;

2. the VBE main system is automatically switched to the VBE standby system through the converter valve return inspection framework, so that the workload of maintenance personnel is reduced, the VBE main system can be switched to the VBE standby system at the first time when the VBE main system fails, and the efficiency of the return inspection framework is improved; meanwhile, online replacement of the light receiving plate during failure is realized.

Drawings

Fig. 1 is a flowchart of the present embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1, the invention is a converter valve review framework for realizing online replacement of a VBE light-receiving board, comprising a thyristor electronic board in signal connection with a converter valve, and further comprising a VBE main system and a VBE standby system, wherein the VBE main system is provided with a first light-receiving board, the VBE standby system is provided with a second light-receiving board, both the first light-receiving board and the second light-receiving board are connected with an optical splitter through optical fiber signals, the optical splitter transmits review signals to the first light-receiving board and the second light-receiving board respectively, and the optical splitter and the thyristor electronic board realize signal connection through optical fibers; when the first light receiving plate has a fault, the converter valve return detection framework is automatically switched to a VBE standby system from the VBE main system.

The VBE main system and the VBE standby system are both arranged in a control room or a protection room of the convertor station. The optical splitters are respectively arranged on the screen cabinets of the VBE main system and the VBE standby system.

The working conditions and principles of the embodiment are as follows:

when the first light receiving board has a fault, the return detection framework of the converter valve is automatically switched to the VBE standby system from the VBE main system to work, meanwhile, the optical splitter continues to operate and transmits return detection signals of the thyristor electronic board to the first light receiving board and the second light receiving board respectively, and the second light receiving board transmits the return detection signals to the VBE standby system in an operating state, so that the operation reliability of the converter valve is effectively improved, and the risk that the direct-current power transmission system is forced to stop operation is reduced.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention accordingly, and not to limit the protection scope of the present invention accordingly. All equivalent changes or modifications made in accordance with the spirit of the present disclosure are intended to be covered by the scope of the present disclosure.

Claims (2)

1. A converter valve rechecking framework for realizing online replacement of a VBE light receiving plate comprises a thyristor electronic plate in signal connection with a converter valve, and is characterized by comprising a VBE main system and a VBE standby system, wherein the VBE main system is provided with a first light receiving plate, the VBE standby system is provided with a second light receiving plate, the first light receiving plate and the second light receiving plate are both connected with a light splitter, and the light splitter is connected with the thyristor electronic plate;

when the first light receiving plate has a fault, the converter valve return inspection framework is automatically switched from the VBE main system to the VBE standby system.

2. The framework of claim 1, wherein the VBE active system and the VBE standby system are installed in a control room or a protection room of a converter station.

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