DE202020100148U1 - Online partial discharge monitoring system for power cables - Google Patents

Abstract

Online partial discharge monitoring system for power cables, characterized in that the online partial discharge monitoring system for power cables comprises a field monitoring unit, a field processing unit, a server and a monitoring device, the output of the field monitoring unit being electrically connected to the field processing unit, the output of the field processing unit being electrically connected to the server is connected, the server being connected to the monitoring device via a communication network; wherein a plurality of field monitoring units are provided, each of which comprises a partial discharge sensor and an identification unit, the partial discharge sensor comprising a high-frequency current transformer and a low-frequency current transformer, the partial discharge sensor being provided outside the power cables in the monitoring area, the identification unit being provided for detecting the identification information from local sensors.

Description

Technical field

The utility model relates to an online partial discharge monitoring system for power cables.

State of the art

As urban power grids expand, the use of power cords continues to increase, and the reliability of cable operations is directly related to the security and stability of the entire power grid. During the operation of power cables, the local voltage concentration in the electrical field caused by internal impurities, protrusions of the semiconductor layer and the accumulation of space charges under the influence of voltage lead to partial discharges and damage to the insulating medium, and the degree of damage depends on the amount of discharge and the discharge time from. Failure to remedy such faults in time may result in permanent insulation failure and failure, and may even damage the electrical device. The existing detection of partial discharges mostly uses the detection by the grounding cable, the detection method has a small area, and the position of the partial discharge cannot be determined in time, so the efficiency is quite low.

Disclosure of the utility model

In order to solve the problems existing in the background technology, the utility model proposes an online partial discharge monitoring system for power cables.

An online partial discharge monitoring system for power cables comprises a field monitoring unit, a field processing unit, a server and a monitoring device, the output of the field monitoring unit being electrically connected to the field processing unit, the output of the field processing unit being electrically connected to the server, the server being connected via a communication network the monitoring device is connected; wherein a plurality of field monitoring units are provided, each of which comprises a partial discharge sensor and an identification unit, the partial discharge sensor comprising a high-frequency current transformer and a low-frequency current transformer, the partial discharge sensor being provided outside the power cables in the monitoring area, the identification unit being provided for detecting the identification information from local sensors.

Based on the above, the identification unit is a GPS unit or an ID unit.

Based on the above, the field processing unit comprises a control cabinet, and a signal detection unit, an analog-digital converter unit, a data processing unit and an Ethernet switching unit, which are each arranged in the control cabinet, the control cabinet being provided with a communication interface, the input of which Signal acquisition unit is connected via the communication interface to the output of the field monitoring unit, the output of the signal acquisition unit being connected to the input of the analog-digital converter unit, the output of the analog-digital converter unit being connected to the input of the data processing unit, the output of the Data processing unit is connected to the server via the Ethernet switching unit.

Based on the above, an auxiliary monitoring unit is also included, the auxiliary monitoring unit comprising a carrying case, and an auxiliary monitoring sensor, a signal processing unit and a radio communication unit, each of which are arranged in the carrying case, the output of the auxiliary monitoring sensor being connected to the input of the signal processing unit, the Output of the signal processing unit is communicatively connected to the server via the radio communication unit.

Based on the above, the auxiliary monitoring unit includes an ultrasonic sensor and an ultraviolet sensor.

The present utility model has significant features and improvements over the prior art. Specifically, by distributing multiple field monitoring units in the monitoring area, it is possible to monitor the cables in real time and expand the monitoring area, and the monitoring information is sent to the server for storage and to the monitoring device for analysis and processing. The utility model improves the timeliness and accuracy of the monitoring.

Figure list

• 1 ein schematisches Blockdiagramm vom Aufbau des Gebrauchsmusters.
• 2 ein schematisches Blockdiagramm vom Aufbau eines bevorzugten Ausführungsbeispieles des Gebrauchsmusters.

In order to explain the technical solution in the utility model or prior art in more detail, the following is briefly introduced in the description in the utility model or prior art with the accompanying figures. Obviously, the attached figures in the following description are only a few exemplary embodiments of the utility model. For the average person skilled in the art, other exemplary embodiments according to these attached figures can also be obtained without creative work.

• 1 a schematic block diagram of the structure of the utility model.
• 2 a schematic block diagram of the structure of a preferred embodiment of the utility model.

Embodiment of the utility model

The technical solutions in the exemplary embodiments in the utility model are clearly and completely described below with the attached figures in the exemplary embodiments in the utility model. Obviously, the exemplary embodiments described are only a part and not all of the exemplary embodiments of the utility model. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are intended to fall within the scope of the present utility model.

How 1 and 2 show comprises an online partial discharge monitoring system for power cables, a field monitoring unit, a field processing unit, a server and a monitoring device, the output of the field monitoring unit being electrically connected to the field processing unit, the output of the field processing unit being electrically connected to the server, the server being connected via a communication network is connected to the monitoring device; wherein a plurality of field monitoring units are provided, each of which comprises a partial discharge sensor and an identification unit, the partial discharge sensor comprising a high-frequency current transformer and a low-frequency current transformer, the partial discharge sensor being provided outside the power cables in the monitoring area, the identification unit being provided for detecting the identification information from local sensors.

In the monitoring area, several partial discharge sensors are placed on different power cables, and the identification unit records the identification information of the corresponding partial discharge sensor. In the exemplary embodiment, the identification unit is a GPS unit and / or an ID unit and is used to identify the unique identification information corresponding to the partial discharge sensor, the identification information comprising GPS information and / or ID information. After the partial discharge sensor detects the partial discharge information, the detection information and the identification information are sent to the field processing unit for data processing, the processed data are sent to the server for storage and to the monitoring device for data analysis and alarming. In practice, the monitoring device is the higher-level computer. The identification information helps to quickly position the positions of the partial discharges.

In the exemplary embodiment, the field processing unit comprises a control cabinet, and a signal detection unit, an analog-digital converter unit, a data processing unit and an Ethernet switching unit, which are each arranged in the control cabinet, the control cabinet being provided with a communication interface, the input of the signal detection unit being via the communication interface is connected to the output of the field monitoring unit, the output of the signal detection unit being connected to the input of the analog-digital converter unit, the output of the analog-digital converter unit being connected to the input of the data processing unit, the output of the data processing unit being via the Ethernet switching unit is connected to the server. In practice, the signal detection unit is a signal detection circuit that converts the current information detected by the current sensor into voltage information, the analog-digital converter unit being used to convert analog signals into digital signals, the data processing unit being a filter circuit and a signal amplifier circuit, wherein the recorded digital signal is filtered and amplified and then sent to the server via the Ethernet switching unit.

The online partial discharge monitoring system for power cables preferably further comprises an auxiliary monitoring unit, the auxiliary monitoring unit comprising a carrying case, and an auxiliary monitoring sensor, a signal processing unit and a radio communication unit, each of which are arranged in the carrying case, the output of the auxiliary monitoring sensor being connected to the input of the signal processing unit, wherein the output of the signal processing unit is communicatively connected to the server via the radio communication unit. In the exemplary embodiment, the auxiliary monitoring unit comprises an ultrasonic sensor and an ultraviolet sensor. The auxiliary monitoring unit is a portable monitoring unit, the auxiliary monitoring unit being conveyed into the monitoring area and active detection being carried out in certain areas. When the cable is partially discharged, physical phenomena such as electrical impulses, electromagnetic radiation, ultrasound, ultraviolet light and various chemical products occur, the detection information after the detection of the ultrasound and UV light by the auxiliary monitoring sensor and the processing of the detection information by the Signal processing unit can not be sent to the server.

It will be apparent to those skilled in the art that the present utility model is not limited to the details of the exemplary embodiments described above and the present utility model can be implemented in other specific forms without departing from the spirit or the essential features of the present utility model. Therefore, the exemplary embodiments should be considered in all respects as exemplary and not restrictive. The scope of the present utility model is defined by the appended claims rather than the description above, and all changes that fall within the meaning and scope of the equivalents of the claims should be included in the present utility model. Any reference sign in the claims should not be construed to limit the claims concerned.

Claims (5)

Online partial discharge monitoring system for power cables, characterized in that the online partial discharge monitoring system for power cables comprises a field monitoring unit, a field processing unit, a server and a monitoring device, the output of the field monitoring unit being electrically connected to the field processing unit, the output of the field processing unit being electrically connected to the server is connected, the server being connected to the monitoring device via a communication network; wherein a plurality of field monitoring units are provided, each of which comprises a partial discharge sensor and an identification unit, the partial discharge sensor comprising a high-frequency current transformer and a low-frequency current transformer, the partial discharge sensor being provided outside the power cables in the monitoring area, the identification unit being provided for detecting the identification information from local sensors. Online partial discharge monitoring system for power cables Claim 1 , characterized in that the identification unit is a GPS unit or an ID unit. Online partial discharge monitoring system for power cables Claim 1 , characterized in that the field processing unit comprises a control cabinet, and a signal detection unit, an analog-digital converter unit, a data processing unit and an Ethernet switching unit, which are each arranged in the control cabinet, the control cabinet being provided with a communication interface, the input of the Signal acquisition unit is connected via the communication interface to the output of the field monitoring unit, the output of the signal acquisition unit being connected to the input of the analog-digital converter unit, the output of the analog-digital converter unit being connected to the input of the data processing unit, the output of the Data processing unit is connected to the server via the Ethernet switching unit. Online partial discharge monitoring system for power cables Claim 1 , characterized in that it also comprises an auxiliary monitoring unit, the auxiliary monitoring unit comprising a carrying case, and an auxiliary monitoring sensor, a signal processing unit and a radio communication unit, each of which are arranged in the carrying case, the output of the auxiliary monitoring sensor being connected to the input of the signal processing unit, the Output of the signal processing unit is communicatively connected to the server via the radio communication unit. Online partial discharge monitoring system for power cables Claim 4 , characterized in that the auxiliary monitoring unit comprises an ultrasonic sensor and an ultraviolet sensor.

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