INSERTABLE HIGH-VOLTAGE BUSHING AND ELECTRICAL DEVICE HAVING AN INSERTABLE HIGH-VOLTAGE BUSHING

Abstract

An insertable high-voltage bushing includes an inner conductor which extends in a longitudinal direction between a high-voltage terminal and a plug-in section of the high-voltage bushing. The plug-in section is configured for the insertion of the high-voltage bushing into a device connection part of an electrical device. An insulating body at least partially extends around the inner conductor. A housing at least partially extends around the outside of insulating body. The housing includes a tubular housing element which extends between a head fitting at the high-voltage terminal of the high-voltage bushing and a mounting flange for fastening the high-voltage bushing to a device housing of the electrical device. The housing element is made of a composite material and a secondary insulation provided between the housing element and the insulating body is formed of a dry foam.

Claims

1-13. (canceled)

14. An insertable high-voltage bushing (1), comprising: a high-voltage terminal (19, 32); a plug-in section (9) configured to plug the high-voltage bushing into a device connection part (2) of an electrical device (3); an inner conductor (5) extending in a longitudinal direction between said high-voltage terminal (19, 32) and said plug-in section (9); an insulating body (6) at least partially surrounding said inner conductor (5); a mounting flange (13) for mounting the high-voltage bushing (1) on a device housing (4) of the electrical device (3); a housing (15) at least partially outwardly surrounding said insulating body (6), said housing (15) including a tubular housing element (15a) extending between said high-voltage terminal (19) and said mounting flange (13), said housing element (15a) being formed of a composite material; and a secondary insulation (17) disposed between said housing element (15a) and said insulating body (6), said secondary insulation (17) including a dry foam.

15. The high-voltage bushing (1) according to claim 14, wherein said insulating body (6) incorporates capacitive control inserts (7a-c) being separated from one another by insulating layers (8a, 6), said control inserts (7a-c) being disposed concentrically around said inner conductor (5) and extending into said plug-in section (9).

16. The high-voltage bushing (1) according to claim 15, wherein said insulating layers (8a, 6) include a non-woven fabric.

17. The high-voltage bushing (1) according to claim 16, wherein said non-woven fabric includes a synthetic polymer.

18. The high-voltage bushing (1) according to claim 15, wherein said control inserts (7a-c) are mutually spaced apart by a radial distance of between 1 mm and 3 mm.

19. The high-voltage bushing (1) according to claim 14, wherein said insulating body (6) includes a cured resin.

20. The high-voltage bushing (1) according to claim 14, wherein the high-voltage bushing (1) extends in the longitudinal direction to a length of from 6 m to 30 m.

21. The high-voltage bushing (1) according to claim 14, wherein said inner conductor (5) has a diameter of at least 5 cm.

22. The high-voltage bushing (1) according to claim 14, wherein said plug-in section (9) includes an outer coating (12) of a flexible insulating coating material.

23. An electrical device (20), comprising: a fluid-tight housing (21); a high-voltage bushing (25) according to claim 14; and a device connection part (29) for receiving and contact-connecting said high-voltage bushing (25).

24. The electrical device according to claim 23, which further comprises: a fastening section (34) fastening said device connection part (29) to said housing (21); a hollow locating section (36) of an electrically non-conductive insulating material extending from said fastening section (34) into said housing; and a metallic contact part (38) disposed at a closed and tapered end region and extending through said insulating material of said locating section (36) or prolonging said locating section (36) in a direction of said closed end region.

25. The electrical device (20) according to claim 24, which further comprises a winding connection line (40) extending within said housing for connecting said contact part (38) to a winding.

26. The electrical device (20) according to claim 25, wherein said winding connection line (40) is equipped with a current sensor (42).

Description

[0026] The invention is described in greater detail hereinafter, with reference to the exemplary embodiments represented in FIGS. 1 to 3.

[0027] FIG. 1 shows an exemplary embodiment of a high-voltage bushing according to the invention, in a schematic partial view;

[0028] FIG. 2 shows an exemplary embodiment of the high-voltage bushing according to FIG. 1, in a further schematic partial view;

[0029] FIG. 3 shows an exemplary embodiment of the electrical device according to the invention, having a high-voltage bushing according to the invention, in a schematic perspective representation.

[0030] Specifically, FIG. 1 represents a partial section of an insertable high-voltage bushing 1. The high-voltage bushing, in the representation according to FIG. 1, is plugged into a device connection part 2 of a high-voltage electrical device in the form of a transformer 3. The device connection part 2 is fastened to a housing wall 4. The housing wall 4 is part of a transformer housing of the transformer 3, which is filled with an insulating medium, for example insulating oil. The fastening of the device connection part to the device housing or transformer housing is executed in an insulating medium-tight manner, such that the insulating medium cannot escape from the device housing. The device connection part 2 comprises a conductive connection part 14 for the constitution of an electrical connection between the high-voltage bushing 1 and a winding of the transformer 3, which is not represented in the figure, which is arranged within the insulating oil-filled device housing.

[0031] The high-voltage bushing 1 comprises an inner conductor 5, which is configured as a hollow conductor of aluminum or copper. The inner conductor 5 is concentrically enclosed in an insulating body 6. The insulating body 6 comprises conductive control inserts 7a-c for capacitive field control, which are concentrically wound about the inner conductor 5. The control inserts 7a-c are separated from one another by insulating layers 8a-b of a PET non-woven fabric which, further to winding about the inner conductor 5, have been impregnated with resin. The control inserts 7a-c are arranged with a radial distance A from one another of 2 mm.

[0032] The high-voltage bushing 1 further comprises a plug-in section 9 for the plugging of the high-voltage bushing 1 into the device connection part 2. The plug-in section 9 comprises a conically tapering part of the insulating body 6, and a connecting conductor section, which is welded to the inner conductor 5 in the form of a conductor bolt 10. A contact system 11 engages with the conductor bolt 10, which constitutes the electrical connection between the high-voltage bushing 1 and the transformer 3.

[0033] An interspace 12 between the plug-in section 9 of the high-voltage bushing 1 and the device connection part 2 is filled with a silicone material, which dielectrically strengthens the interspace 12. A mounting flange 13 is provided for the mounting of the high-voltage bushing 1 on the transformer 3.

[0034] The high-voltage bushing 1 further comprises a housing 15 having a housing element 15a of a glass fiber-reinforced plastic. The housing element 15a is tubular, and is arranged concentrically around the inner conductor 5. A secondary insulation 17 is arranged between the housing element 16 and the insulating body 6, which comprises a polyurethane foam.

[0035] FIG. 2 represents an open air-side region of the high-voltage bushing 1. A head fitting 18 can be seen, which is configured for the mechanical termination of the high-voltage bushing 1 at its high-voltage terminal 19, and for the constitution of an electrical connection between the inner conductor 5 and an overhead line which is to be connected to the high-voltage bushing. The housing element 15a engages axially with the head fitting 18. The housing 15 further comprises an outer shielding in the form of shields 15b of silicone.

[0036] FIG. 3 shows a perspective view of an exemplary embodiment of an electrical device according to the invention, which is configured here as a transformer 20. The transformer 20 comprises a transformer housing 21, which is equipped with a cooling module 22, an expansion tank 23, an auxiliary current module 24 and high-voltage bushings 25-27. The above-mentioned components or modules are detachably connected to one another, and can thus be easily removed and transported in a mutually independent manner. For the protection of the high-voltage bushings 25-27, and of the active part of the transformer 20 which is arranged in the transformer housing 21, i.e. a higher-voltage winding which is connected to the high-voltage bushing 25 or 26, a lower-voltage winding which is connected to the high-voltage bushing 27, and a core of the windings, diverters 28 are provided which, within their respective diverter housing, constitute a non-linear resistance which, in the event of overvoltages, switches over from a non-conductive state to a conductive state, thereby protecting components which are parallel-connected thereto.

[0037] The high-voltage bushings 25-27 are configured as insertable high-voltage bushings and, at their plug-in section 33, can be inserted into matching device connection parts 29 of the transformer 20. The device connection parts 29 are configured to a rotationally symmetrical design, and delimit a recess, the opening of which faces the housing cover, and is configured with a complementary shaping to the respective plug-in section of the high-voltage bushing 25-27. The device connection parts 29 are moreover fastened to the transformer housing 21 in a fluid-tight manner, such that the interior or the oil reservoir of the single-phase transformer 20 is sealed from the external atmosphere in an insulating medium-tight, i.e. an air- and fluid-tight manner. At one closed end of the device connection part 29, a bolt, which is not visible in the figure, is held as a contact part which, when the high-voltage bushing 25, 26 or 27 is inserted into the respective device connection part 29, engages in conductive contact with an inner conductor which extends through the respective high-voltage bushing 25-27. Said bolt extends into the interior of the transformer housing 21, i.e. into the oil reservoir thereof, where it engages in contact with a winding connection line, which thus electrically connects the device connection part 29 to the respective lower- or higher-voltage winding of the transformer 20.

[0038] For the fitting and attachment of the high-voltage bushing 25, 26 or 27, each of the latter comprises a fixing terminal 30. From the fixing terminal 30, a column section 31 extends to a high-voltage terminal 32 which, in the exemplary embodiment represented in FIG. 2, is an exterior terminal.

[0039] Each high-voltage bushing 25, 26 or 27 comprises an insulating body 251, through which an inner conductor extends (c.f. FIG. 1). The insulating body incorporates conductive control inserts, which are arranged concentrically around the inner conductor. The control inserts are separated from one another by insulating layers of a synthetic plastic non-woven fabric. Further to the winding of the insulating layers and the control inserts around the inner conductor, the insulating body is impregnated with resin. A number of the control inserts extend into the plug-in section of the high-voltage bushing 25. It should be observed that the number of three control inserts represented diagrammatically in FIG. 1 is indicated for purposes of illustration only, and said number is naturally not restricted to three.