CN204241500U - Buchholz relay oil stream flow velocity acquisition system - Google Patents

Abstract

The utility model discloses a gas relay oil flow velocity collection system, in which the signal output end of the flow monitoring sensor is connected to the signal input end of the electric quantity collection and recording device through wires; the voltage signal input end and the current signal input end of the electric quantity collection and recording device , the oil temperature signal input terminal and the transformer internal pressure signal input terminal are respectively connected to the voltage signal output terminal, current signal output terminal, oil temperature signal output terminal and transformer internal pressure signal output terminal of the oil-immersed power transformer. The utility model can measure the flow velocity of the insulating oil flow in the pipeline between the main body of the oil-immersed power transformer and the oil pillow, and simultaneously record the voltage and current values of the incoming and outgoing lines, the oil temperature and the internal pressure of the transformer in real time, and the equipment can be operated online for a long time. The monitoring record data can be used as the basis for finding the cause of the fault, and the flow rate recorded at the time of heavy gas action provides a reference for the verification of the heavy gas setting value, and a more accurate adjustment of the heavy gas setting value.

Description

Buchholz relay oil flow velocity acquisition system

technical field

The utility model relates to the field of checking the heavy gas setting value of the gas relay, in particular to a gas relay oil flow rate acquisition system for providing technical support for the checking of the heavy gas setting value of the gas relay.

Background technique

The transformer is one of the important electrical equipment in the substation, and its safe operation is directly related to the continuous and stable operation of the entire power system. Oil-immersed power transformers and reactors are high-voltage equipment widely used in power systems at present. Due to their high cost and complex structure, once they break down, they will be difficult to repair and take a long time to repair. At the same time, they will bring serious economic losses to enterprises. There are many protection devices related to transformers, including electrical protection and non-electrical protection. The power-type protection is not sensitive enough to the internal fault of the transformer body. This is mainly because the internal fault starts from a short circuit between turns. Although the fault current inside the short circuit is large, it is not reflected in the line current. Only the fault develops into a multi-turn short circuit. Or short circuit to ground to cut off the power supply. Therefore, most of the protection related to the transformer body adopts non-electrical type, such as pressure relief valve protection measures. Gas relay protection, also known as heavy gas protection, is an important protection measure for oil-immersed power transformers when internal faults occur. The main protection for internal faults of oil-immersed power transformers is heavy gas protection, which can immediately remove faulty equipment.

The heavy gas protection of the gas relay in the oil-immersed power transformer is realized by the insulating oil inside the transformer body surging to the oil conservator. When the pressure in the transformer box rises, the insulating oil flows to the oil conservator, and the oil will impact the gas when it surges. When the baffle inside the relay reaches a certain speed and the bearing pressure of the baffle exceeds the setting pressure, the contact is closed. It can be seen that the insulating oil flow in the pipeline directly reflects the pressure of the oil flow on the baffle plate of the gas relay, and the flow velocity of the insulating oil flow is proportional to the pressure of the baffle plate. Therefore, the research on the oil flow velocity in the pipeline has very important meaning.

At present, the research and development of on-line monitoring technology for transformer oil flow rate at home and abroad is still blank, and there are no research results and products in this area; the heavy gas protection setting value of the gas relay is still set according to the empirical value, specifically for a certain transformer ( Reactor) setting is reasonable and cannot be verified; and when the heavy gas protection operates, it can only rely on external information and experience to infer whether the operation is correct, and there is no internal oil flow rate data of the transformer before and after the fault for reference. Over the years, although the power system has spent a lot of manpower, material resources and financial resources on the detection of the heavy gas flow rate value and light gas volume value of the gas relay, due to the limitation of detection equipment and detection methods, the gas relay frequently Power accidents caused by the action happen from time to time. In order to ensure the safe operation of power transformers, how to accurately detect and adjust the gas relay flow rate value has become a widespread concern and common concern of the power system operation, maintenance and testing personnel. It is also a problem that relevant personnel engaged in the development and production of power monitoring equipment should focus on.

In recent years, various electric power enterprises often have faults of transformer tripping due to misoperation of the heavy gas protection of the transformer body, which affects the reliability of the power system, transformer operation level and power supply reliability of power users; at the same time, in view of the heavy gas protection device. Turn-to-turn short circuit or internal insulation arc fault is highly sensitive and plays an important role. Once there is a malfunction, the cause of the malfunction must be thoroughly investigated, and the transformer body can be put into operation only after there is no fault, which increases a lot of on-site work. Therefore, measures must be taken to prevent gas Protection against misoperation.

Utility model content

The purpose of this utility model is to provide a gas relay oil flow rate acquisition system, which can measure the flow rate of the insulating oil flow in the pipeline between the oil-immersed power transformer body and the oil pillow, and record the voltage and current values of the incoming and outgoing lines, oil The temperature value and the internal pressure value of the transformer, the equipment can be operated online for a long time, and its monitoring and recording data are used to provide a reference for the verification of the heavy gas setting value and provide technical support for the adjustment of the heavy gas setting value.

The utility model adopts the following technical solutions:

A gas relay oil flow rate acquisition system, including a flow monitoring sensor arranged on the vertical part of the pipeline connecting the gas relay and the oil-immersed power transformer body, the signal output end of the flow monitoring sensor is connected to the signal input of the power collection and recording device through a wire terminal; the voltage signal input terminal, current signal input terminal, oil temperature signal input terminal and transformer internal pressure signal input terminal of the power collection and recording device are respectively connected to the voltage signal output terminal, current signal output terminal, oil temperature signal output terminal of the oil-immersed power transformer Signal output terminal and transformer internal pressure signal output terminal.

The wires are twisted pairs, and a shielding layer and a metal bellows are sequentially arranged outside the twisted pairs.

The power collecting and recording device adopts a synchronous vector measuring device.

The gas relay oil flow velocity acquisition system is connected with a GPS time synchronization unit.

The utility model aims at the phenomenon that it is difficult to ascertain the cause after some gas protection actions in the current field application, by measuring the flow velocity of the insulating oil flow in the pipeline between the main body of the oil-immersed power transformer and the oil conservator, and simultaneously recording the voltage of the incoming and outgoing lines in real time The current value and the oil temperature and pressure value provide data support for the analysis of the change process of the oil flow in the pipeline between the oil conservator and the oil conservator during the fault period. Value, oil temperature value and transformer internal pressure value are used as auxiliary judgments to provide reference for the adjustment of heavy gas setting value.

Description of drawings

Fig. 1 is a structural schematic diagram of the gas relay oil flow velocity acquisition system of the utility model.

Detailed ways

As shown in Figure 1, the gas relay 6 oil flow velocity acquisition system described in the utility model includes a flow monitoring sensor 1, and the existing gas relay 6 is installed between the oil conservator 2 and the oil-immersed power transformer body 3 near the oil conservator 2 On one side of the horizontal slightly inclined pipeline, when too much gas is released in the oil-immersed power transformer, the gas will accumulate in the gas relay 6, so that the oil level will drop and the light gas protection will operate. Because this horizontal pipeline is equipped with gas relay 6 and connecting flanges at both ends, there are few smooth straight long parts left, which are not suitable for installing flow monitoring sensor 1. Therefore, in the utility model, the flow monitoring sensor 1 is installed in the vertical part of the pipeline connecting the gas relay 6 and the oil-immersed power transformer body 3, and the insulating oil flowing through the vertical part of the pipeline completely flows into the gas relay 6, so the internal oil flow of the vertical part of the pipeline The surge condition is completely consistent with the inside of the gas relay 6, which can significantly improve the measurement accuracy. The flow monitoring sensor 1 adopts a flow monitoring sensor 1 with a high sampling rate, such as UCT3488. The data collected and converted by the flow monitoring sensor 1 is output by the digital interface. Although the oil flow surges at a fast speed, it is still a mechanical movement, and its change speed is much lower than that of the electric quantity. In the utility model, the data collection cycle and output delay of the flow monitoring sensor 1 are on the order of several milliseconds, so that enough sampling point data can be collected in the entire oil flow change cycle for observing and comparing the state when the fault occurs. The signal output terminal of the flow monitoring sensor 1 is connected to the signal input terminal of the power collection and recording device 4 through a wire 5; the voltage signal input terminal, current signal input terminal, oil temperature signal input terminal and transformer internal pressure signal of the power collection and recording device 4 The input terminals are respectively connected to the voltage signal output terminal, the current signal output terminal, the oil temperature signal output terminal and the transformer internal pressure signal output terminal of the oil-immersed power transformer.

In this embodiment, the wire 5 is a twisted pair, and the twisted pair is provided with a shielding layer and a metal bellows in sequence, which can play a good role in electromagnetic protection.

Electricity collection and recording device 4 adopts the EC203 synchro vector measuring device produced by Shanghai Iridium Control Electric Power System Engineering Co., Ltd., which can collect the electric quantity and non-electrical quantity information of the transformer, and transmit the time-marked electric parameters to the control center through the high-speed data channel and Record.

The data output by the flow monitoring sensor 1 is collected and stored by the power collection and recording device 4, and the power collection and recording device 4 is also responsible for sampling the voltage and current values of the incoming and outgoing lines of the oil-immersed power transformer at the corresponding time, oil temperature and The internal pressure value of the transformer is used for analysis and comparison. In order to make all recorded data comparable, the gas relay 6 oil flow rate acquisition system is also connected with a GPS time synchronization unit to ensure the absolute accuracy of the gas relay 6 oil flow rate acquisition system. The time is consistent with the time of other equipment on the grid.

Claims (4)

1. a Buchholz relay oil stream flow velocity acquisition system, it is characterized in that: comprise the traffic monitoring sensor be arranged on Buchholz relay and oil-immersed power transformer body connecting tube vertical component, the signal output part of traffic monitoring sensor connects the signal input part of electric quantity acquisition and pen recorder by wire; The voltage signal inputs of electric quantity acquisition and pen recorder, current signal input end, oil temperature signal input end and inside transformer pressure signal input end are connected the voltage signal output end of oil-immersed power transformer, current signal output end, oil temperature signal output terminal and inside transformer signal output end respectively.

2. Buchholz relay oil stream flow velocity acquisition system according to claim 1, is characterized in that: described wire adopts twisted-pair feeder, and twisted-pair feeder outside is disposed with screen layer and metallic bellows.

3. Buchholz relay oil stream flow velocity acquisition system according to claim 2, is characterized in that: described electric quantity acquisition and pen recorder adopt synchronized phase measurement device.

4. Buchholz relay according to claim 3 oil stream flow velocity acquisition system, is characterized in that: unit when described Buchholz relay oil stream flow velocity acquisition system is connected with GPS couple.