KR102102301B1 - Assembly for overvoltage protection of electrical systems insulated with insulating fluid - Google Patents

Abstract

The invention relates to a resistor column (3) having resistive elements (19) arranged in a housing (4) configured to be filled with an electrically insulating protective gas (6), and to connect the electrical system (2) to the resistor column (3). It relates to an assembly (1) for overvoltage protection of an electrical system (2) insulated with an insulating fluid (5), having a bushing (7) for. The present invention provides a contact device (8, 9) that can be mechanically driven from outside the housing for the housing (4) to connect and / or disconnect the electrical connection between the resistor column (3) and the bushing (7). Characterized in that it is equipped with 10, 11).

Description

Assembly for overvoltage protection of electrical systems insulated with insulating fluid

The present invention relates to an assembly as claimed in the preamble of claim 1.

The function of surge arresters is to divert unacceptable voltages to ground, e.g., due to lightning strokes on overhead lines, thereby other devices, such as transformers. To protect them. To this end, surge arresters contain metal oxide elements that exhibit little electrical conductivity below the structurally-dictated threshold voltage, but exhibit good electrical conductivity above the threshold voltage. Surge arresters of this type are known from the product brochure "High-voltage surge arresters-Product guide" (Siemens AG 2012, order n˚ E50001-G630-A249-X-4A00). have.

High-voltage bushings are known from the product brochure "EKTG 72.5-800 kV RIP transformer gas bushing" published by HSP Hochspannungsgeraete GmbH (n˚ 03 / 12-500 TH 102-110888, 2012). The high voltage bushing comprises an insulator of resin-impregnated paper (RIP). The capacitor element consists of a special paper impregnated with an epoxy resin under vacuum.

To date, arresters have been flange-mounted to bushings at the installation site of transformers, using adapter rings or adapter housings, as the case may be. To establish an electrically conductive contact between the bushing and the arrester, the arrester housing is opened by a manhole. Thereafter, the arrester housing is filled with a protective gas, such as sulfur hexafluoride.

It is an object of the present invention to disclose an assembly for overvoltage protection of an electrical system insulated with an insulating fluid, which is relatively simple to operate and maintain.

This object is achieved by the assembly as claimed in claim 1 according to the invention.

The present invention has an important advantage that it is possible to transport in a fully pre-assembled state from the manufacturing site to the installation site by means of a contact device that can be mechanically driven from outside the housing. In some cases, upon installation of an electric high voltage system in the field, charging with a protective gas may be performed even prior to transportation so that additional operations involving gas are not required. Any opening of the inspection hatch to separate the resistor column and bushing to operate the assembly or to perform maintenance operations can be omitted. As a result, assembly can be performed in a faster and simpler manner, thereby reducing costs.

In a preferred form of embodiment of the assembly according to the invention, the contact device comprises a threaded rod configured to receive rotational motion from the outside of the housing and displace the contact connected to the resistor column, wherein the contact is a bushing. It is movable towards or away from the mating contact. The threaded rod is a simple mechanical structure for converting rotational motion into longitudinal motion along the axis of the rod; Consequently, this represents a proven long-term arrangement that is cost effective to use.

In a further preferred form of embodiment of the assembly according to the invention, the electrical system insulated with insulating fluid comprises a high voltage transformer. This is advantageous because high voltage transformers require routine protection from unacceptable overvoltages.

In a further preferred form of embodiment of the assembly according to the invention, the insulating fluid is oil.

In a further preferred form of embodiment of the assembly according to the invention, the protective gas contains sulfur hexafluoride.

In a further preferred form of embodiment of the assembly according to the invention, the bushing, when assembled, comprises a first part configured to protrude into the housing of the electrical system and be surrounded by an insulating fluid.

In a further preferred form of embodiment of the assembly according to the invention, the bushing comprises a second part, which, in the assembled state, is configured to be surrounded by a protective gas, in an assembled state. This is advantageous because the assembly can have a very space saving and lightweight design, by partial integration of the bushing in the arrester element, thereby saving both production and transportation costs.

In a further preferred form of embodiment of the assembly according to the invention, an inspection hatch is provided for accessing the contact area between the resistor column and the bushing. In arresters, the inspection hatch is frequently described as a manhole because the technician, after opening the hatch, can access components located on the inside of the housing.

In a further preferred form of embodiment of the assembly according to the invention, the contact device can be driven by a drive arranged on the housing. This is an advantage in this way that switch-on or switch-off of the surge arrester can be achieved without opening the protective gas insulated housing area.

In a further preferred form of embodiment of the assembly according to the invention, the drive is a manual drive. This is an advantage in that the manual drive, for example using a manual crank, can be produced in a cost effective and simple manner.

In a further preferred form of embodiment of the assembly according to the invention, the drive is an electric drive. This is an advantage in that, for example, an electric drive using an electric motor can be automated by a field control device or by remote control from a control station.

For clarity of the present invention, the following is shown in a schematic representation.
1 shows an exemplary embodiment of an assembly according to the invention.

1 shows an exemplary embodiment of an assembly 1 according to the invention for overvoltage protection of an electrical system 2 insulated with an insulating fluid 5. The system is an oil-insulated high voltage transformer with a housing 20 filled with oil 5. A resistor column 3 with resistive elements 19 is provided, which is arranged in a housing 4 filled with an electrically insulating protective gas 6, for example sulfur hexafluoride (SF 6). The bushing 7 for connecting the electrical system 2 to the resistor column 3 is, in the assembled state, a first part that projects into the housing 20 of the electrical system 2 and is surrounded by an insulating fluid 5 (17). The first flange 15 connects the housing 20 and the bushing 7. The second part 18 of the bushing 7 projects into the housing 4 surrounding the resistor column 3 and is surrounded by a protective gas 6. The second flange 14 connects the housing 4 and the bushing 7.

In the housing 4, a contact device 8, 9, 10, 11, which can be driven mechanically from outside the housing, closes the electrical connection between the resistor column 3 and the bushing 7 and / or Or for separating. Resistive elements are metal oxide semiconductors that have little electrical conductivity below a structurally determined voltage, but exhibit very good conductivity above this voltage. As a drive for the contact devices 8, 9, 10, 11, a manual drive 12 with a hand crank is used. By means of this configuration, between the resistor column 3 and the bushing 7 without the release of protective gas and subsequently without the need for manual connection or disconnection of the connection by the technician via the inspection hatch 13 It is possible to establish or cut off the electrically conductive connection. This greatly simplifies the use of the assembly, since the assembly can be delivered in a fully assembled state and is very easy to maintain even after starting operation. Since the on-site erection of the assembly can be omitted, a conventional adapter between the bushing 7 and the arrester housing 4 is used to connect any mutually mismatching flanges in some cases. It is likewise possible to eliminate the need for on-site fitting of the rings or adapter housings.

The contact device comprises a threaded rod 9 which is fixedly fastened to the contact 8. The contact 8 is arranged as a bolt configured to be displaced by sliding on the guide portion 21. When the bolt 8 is inserted into the mating contact 16 on the side of the bushing 7, an electrically conductive connection is established. When the bolt 8 is fully withdrawn on the side of the guide 21, an isolation gap 22 is constructed, which allows the formation of a safe break by the protective gas. The threaded rod 9 is made so that the rotational movement of the second rod 11 is transmitted to the threaded rod through the gear device 10, thereby displacing the threaded rod along an axis parallel to the resistor column. 2 The rod 11 is mounted on a gearing unit 10 that is additionally provided. In the simplest case, the second rod 11 has a profile or thread for this purpose, which is configured to mate with a thread on the threaded rod. In the shown closed state, the corresponding rotational movement of the second rod driven by the drive unit 12 can retract the threaded rod and the bolt 8 by screwing in the direction of the drive unit. Thereby, the isolation gap 22 can be formed.

Claims (11)

An assembly (1) for overvoltage protection of an electrical system (2) insulated with an insulating fluid (5),
Resistor column 3 with resistive elements 19 arranged in a housing 4 configured to be filled with an electrically insulating protective gas 6, and a bushing for connecting the electrical system 2 to the resistor column 3 In the assembly comprising 7),
In the housing 4, a contact device 8, 9, 10, 11, which can be mechanically driven from outside the housing, is provided to connect or disconnect the electrical connection between the resistor column 3 and the bushing 7 ,
The bushing 7 comprises a second part 18 which protrudes into the housing 4 surrounding the resistor column 3 and, in the assembled state, is configured to be surrounded by a protective gas 6,
The contact device 8, 9, 10, 11 is a resistor when the contact device 8, 9, 10, 11 contacts the second part 18 of the bushing 7, without discharging the protective gas 6 The electrical connection between the column 3 and the bushing 7 is connected, and when the contact device 8, 9, 10, 11 is withdrawn from the second part 18 of the bushing 7, the resistor column 3 and Assembly (1), characterized in that it is arranged to separate the electrical connection between the bushings (7). The screw rod according to claim 1, wherein the contact devices (8, 9, 10, 11) are configured to receive rotational motion from the outside of the housing (4) to displace the contact (8) connected to the resistor column (3). The assembly (1), comprising (9), characterized in that the contact (8) is movable towards or away from the mating contact (16) on the bushing (7) by the rotational movement. The assembly (1) according to claim 1 or 2, characterized in that the electrical system (2) insulated with an insulating fluid (5) comprises a high voltage transformer. Assembly (1) according to claim 1 or 2, characterized in that the insulating fluid (5) is an oil. The assembly (1) according to claim 1 or 2, characterized in that the protective gas (6) contains sulfur hexafluoride. The first part (17) according to any one of the preceding claims, wherein the bushing (7) is, when assembled, configured to project into the housing (20) of the electrical system (2) and to be surrounded by an insulating fluid (5). ), Characterized in that it comprises a (1). delete Assembly (1) according to claim 1 or 2, characterized in that an inspection hatch (13) is provided for accessing the contact area between the resistor column (3) and the bushing (7). Assembly (1) according to claim 1 or 2, characterized in that the contact devices (8, 9, 10, 11) can be driven by a drive (12) arranged on the housing (4). 10. The assembly (1) according to claim 9, characterized in that the drive (12) is a manual drive. 10. The assembly (1) according to claim 9, characterized in that the drive (12) is an electric drive.

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