RU2080714C1 - Ground electrode - Google Patents

Abstract

FIELD: high-voltage equipment manufacture; metal-clad gas-insulated switchgear. SUBSTANCE: rotating shaft imparts its motion through leverage and control rod to ground stake connected to main current-carrying circuit of metal-clad gas-insulated switchgear, in the action, one part of stake is first to be connected to part being grounded and then, in further movement, other part of rod by means of which this part is connected through current-collecting contacts to ground. When first part of stake comes in contact with part being grounded, current-carrying circuit of switchgear is electrically connected to bushing insulator through flexible insulated conductor which makes it possible to calibrate partial-discharge measuring circuit (such as, switchgear insulation diagnosing system) using single pulse charge of partial discharges and bushing insulator lead and to measure resistance of section in main current-carrying circuit of switchgear between two ground stakes. EFFECT: improved design. 8 cl, 4 dwg

Description

 The invention relates to the class of high-voltage apparatus engineering, namely, to high-voltage grounding conductors of gas-insulated complete switchgears (GIS).

 Known high voltage switchgear grounding devices containing a sealed enclosure, a movable ground rod and slip-on current collector contacts, designed to ground the main current-carrying part of the switchgear.

 However, in such grounding conductors there is no possibility of connecting to the main current-carrying circuit of the switchgear, bypassing the grounding circuit of the ground electrode system, which does not allow measuring the resistance of the circuit of the main current-carrying circuit without opening the volumes of the switchgear, monitoring the presence of voltage on the main current-carrying circuit, and controlling the quality of insulation when measuring PD during operation , calibrate the switchgear by the value of the unit impulse charge of a partial discharge (hereinafter referred to as the PD) when measuring the PD and recording the pulse transient percent ssov in switchgear surges.

 The technical problem to which the invention is directed is to provide the possibility of measuring the circuit resistance of the main current-carrying circuit of the switchgear without opening the volumes of the switchgear before commissioning at the installation site and during repairs, providing the possibility of calibrating the switchgear by the value of a single pulse charge of the PD when measuring the PD as when testing with PD measurement, and when measuring PD, and when measuring PD during operation, monitoring the presence of voltage on the main current-carrying con round and registration of pulse transient processes in the switchgear under overvoltage.

 To solve this problem, in a ground electrode containing a sealed metal case and a movable ground rod, the movable ground rod is made of two metal parts isolated from each other by an insulating gasket, mechanically connected to each other, electrically connected to one of the parts and isolated from the other by means of insulating bushings and washers with a stud to which a flexible wire is connected at one end, the other end of which is connected to a newly inserted insulator fixed to the housing mlitelya.

 Shielded cable can be selected as flexible wire.

 To ensure electromagnetic coherence of the movable ground rod and the lead-through insulator terminal, the pin can be electrically connected to one end of the inner core of the shielded cable, the other end of which is electrically connected to the lead-through terminal insulator, and the cable screen itself is electrically connected to the movable ground rod part isolated from studs, and the other with the body of the ground electrode.

 To control the presence of voltage on the main current-carrying circuit, a metal shield is insulated from it by means of insulating washers on the ground electrode body, on which, in turn, a sliding contact is fixed, made with the possibility of touching the movable ground rod.

 To improve the accuracy of measuring the resistance of the main current-carrying circuit of the switchgear by eliminating the influence of connecting wires (bridge measurement), the stud is electrically connected to one end of the newly introduced second cable, the other end of which is electrically connected to the newly introduced second bushing.

 To ensure the possibility of controlling the quality of insulation during operation by measuring the PD by the electric method and (or) recording pulse transients in the switchgear, the moving grounding rod of the ground electrode is equipped with at least one ferromagnetic core that encloses it and is located between the ground electrode housing and the shield.

 At least one coil of wire can be wound around the ferromagnetic core, which is connected on one side to the ground electrode housing and the other with a newly introduced third bushing insulated on the ground electrode housing.

 The part of the movable ground rod insulated from the stud can be made of insulating material, and there is no need to use an insulating strip.

 In FIG. 1, 2 shows the ground electrode according to claim 1 of the formula, in FIG. 3 - grounding conductor according to claim 4 of the formula; in FIG. 4 earthing switch 5 7 formulas.

 The earthing switch (Fig. 1) contains a sealed metal housing 1, a movable grounding rod 2, a linkage 3, a rod 4, a shaft 5 and slip-ring current-carrying contacts 6 intended for electrical connection of the housing 1 and the grounding rod 2, which is electrically connected to the main current-carrying part GIS (not shown). The movable ground rod 2 is made of two metal parts 7 and 8, mechanically interconnected by means of a pin 9 and insulated from each other by an insulating gasket 10. The pin 9 is connected by a flexible insulated wire 11 with a newly inserted bushing 12.

 In FIG. 2 shows in more detail the connection of the metal parts 7 and 8, the grounding rod 2, where the pin 9 is electrically connected to the part of the rod 8 and is isolated from the part of the rod 7 by means of insulating sleeves 13, 14 and an insulating washer 15.

 As a flexible insulated wire 11 can be used shielded cable (not shown), while the inner core of the cable is connected at one end with a stud 9, the other with the output of the bushing 12, the cable shield is connected at one end to a part of the rod 7, the other to the body of the ground electrode 1 .

 On the body 1 of the earthing switch (Fig. 3), with the help of screws 16, a metal screen 17 can be fixed, isolated from the body 1, by means of an insulating washer 18, with a sliding contact 19, made with the possibility of touching the movable ground rod 2.

 To improve the accuracy of measuring the resistance of the main current-carrying circuit of the switchgear by eliminating the influence of the connecting wires, the pin 9 can be electrically connected to the second bushing 20 (Fig. 4) through the cable 21.

 To ensure the possibility of controlling the quality of insulation during operation by measuring PD by the electric method and (or) recording pulse transients in the switchgear, the movable ground rod 2 (Fig. 4) can be equipped with an annular ferromagnetic core 22 located between the housing 1 and the screen 17 and covering rod 2. At least one turn of a wire 23 can be wound on the core 22, connected at one end to the grounding case 1, and the other to the third bushing 24.

 Part 7 of the movable ground rod 2 may be made of insulating material.

 The grounding is carried out as follows.

 When the shaft 5 (Fig. 1) rotates through the lever mechanism 3 and the rod 4, the movement is transmitted to the grounding rod 2, which is connected to the main current-carrying circuit of the switchgear (not shown), while the part 8 of the rod 2 is first electrically connected to the grounding element, and then during further movement, part 7 of the rod 2, through which the element is grounded through current collector contacts 6 connected to the grounded housing 1.

 When part 8 of the rod 2 is in contact with the grounding element 7, the current-carrying circuit of the switchgear is electrically connected to the bushing 12 by means of a flexible insulated wire 11, which allows calibration of the PD measurement circuit (for example, the insulation diagnostics system of the switchgear) using the value of a single pulse PD charge, using the output of the feed-through insulator 12, and measure the resistance of the circuit of the main current-carrying circuit of the switchgear.

 The circuit resistance of the main current-carrying circuit of the switchgear can be measured using a bridge circuit using the output of bushing insulators 12 and 20, which increases the accuracy of the measurement.

 To reduce the distortion of the calibration pulses during calibration of the PD measurement circuit, a shielded cable is used as flexible wire 11, and a terminating resistance (not shown) is included between the pin 9 and the flexible wire (cable) 11.

 In working condition, the current-carrying circuit of the switchgear is under high voltage, the ground electrode is in the off position. In this case, a potential is determined on the screen 17, which is determined by the capacity of the screen 17 and part 8 of the rod 2 relative to the grounded case of the ground electrode. The induced potential is recorded at the output of the bushing 12, which allows you to control the presence of voltage on the main current-carrying circuit of the switchgear.

 If there is a defect in the insulation of the switchgear, a PD occurs in it, causing the pulse current to flow through the own capacity of the switchgear block to the grounded case. This current will cause a voltage drop on the part 8 of the rod 2 on which the ferromagnetic core 22 is worn around the rod 2. This voltage drop through the wire 23 and the bushing 24 will be detected by a PD meter connected to the output of the insulator 24.

 If the wire 23, one end of which is electrically connected to the output of the bushing 24, is made in the form of at least one closed coil covering at least one core and connected to the grounded housing 1, then the system: part 8 of the grounding rod 2 with a ferromagnetic core 22 and a closed loop of wire 23, one end of which is connected to the output of the bushing 24, and the other is electrically connected to the grounded housing 1, will play the role of a transformer that will provide galvanic isolation between the high CR-voltage circuit flowing a current pulse and measuring circuit, which will increase the reliability of the meter CR connected to the bushing terminal.

 When performing part 7 of the grounding rod 2 of insulating material, there is no need to use the insulating strip 9, the bushings 13 and 14 and the washer 15 while maintaining all the functional properties.

Claims (8)

 1. An earthing switch comprising a sealed metal housing, a movable ground rod, characterized in that the movable ground rod is made of two metal parts isolated from one another by an insulating gasket, mechanically connected to each other, electrically connected to one of the parts and insulated from the other by means of insulating sleeves and washers with a stud to which a flexible wire is connected at one end, the other end of which is connected to a newly inserted bushing, fixed to sensor body earthing.  2. An earthing switch according to claim 1, characterized in that a shielded cable is selected as a flexible wire.  3. An earthing switch according to claim 2, characterized in that the stud is electrically connected to one end of the inner core of the shielded cable, the other end of which is electrically connected to the lead-through insulator, and the screen of the cable itself is electrically connected to one part of the movable grounding rod isolated from the stud and the other with the grounding case.  4. The earthing switch according to any one of paragraphs. 1 to 3, characterized in that on the ground electrode case is fixed a metal screen isolated from it by means of insulating washers, on which a sliding contact is fixed, configured to touch the movable ground rod.  5. The earthing switch according to any one of paragraphs. 1 to 4, characterized in that the stud is electrically connected to one end of the newly introduced second cable, the other end of which is electrically connected to the newly introduced second bushing.  6. The earthing switch according to claim 4, characterized in that the movable earthing rod of the earthing switch is provided with at least one ferromagnetic core covering it and located between the earthing switch housing and the shield.  7. An earthing switch according to claim 6, characterized in that at least one winding of a wire is wound around the ferromagnetic core, which is connected to the ground electrode case on one side and a third bushing insulated on the ground electrode body on the other.  8. The earthing switch according to claim 1, characterized in that the part of the movable grounding rod isolated from the stud is made of insulating material.

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