EP0847062B1 - Surge arrester - Google Patents

Abstract

The varistor unit provides overvoltage protection, e.g. for power station instrumentation. Between two conductive cylindrical mountings (5, 6) there are one or more metal oxide-based varistors, in a cylindrical active section (8). The mountings seal against the ends of a cylindrical insulating casing (1), with an insulating filling around the active section. The casing is completed by an insulating tube (2) which is injection moulded or extruded. This has a surrounding, screened weather proofing (3). One mounting (5) is moulded into an end of the tube (2). The other, having an external thread (15), is screwed into an internal thread at the other end of the tube. This provides compressive contact force. Preferably the tube is a fibre-reinforced thermoplastic polymer, especially a polyamide with up to 50 wt.% glass fibre.

Description

TECHNICAL AREA

The invention is based on a surge arrester after the The preamble of claim 1.

Such a surge arrester is used in medium or high voltage systems for Measuring, protection or control tasks used and has a in a Isolierstoffgehäuse arranged active part, which at least one varistor based on contains selectively with selected elements, such as Bi, Sb, Co and Mn, doped zinc oxide. The active part is fixed by means of a layer of lsolierma.terial inside the housing.

STATE OF THE ART

A surge arrester of the type mentioned in EP 0 595 376 A2 specified. This surge arrester contains a lsolierstoffrohr from a Composite material, such as a glass fiber reinforced polyester, in which a along the Tube axis aligned stack of varistor elements is arranged. In the ends of the Insulating tube are formed internal thread, each of which receives a External thread of a metal connection fitting serve. The insulating tube has Through openings through which insulating means, such as oil or Sulfur hexafluoride, can penetrate into the interior of the pipe or at a undesired operating state ionized gases from the inside of the tube to the outside can occur. A weather jacket enclosing the tube on the shell side elastomeric material protects the surge arrester from harmful Environmental influences.

In EP 0103454 B1 a surge arrester is described which has a with Weathersheds porcelain porcelain with a cylinder bore has, in the a cylindrical active part based on several columnar stacked Varistors based on doped zinc oxide is introduced. The active part is with help one provided between the wall of the bore and the lateral surface of the active part Adhesive layer fixed on the basis of glass. Two on the end faces of the active part Guided metal fittings close the inside of the housing to the outside and serve as Power connections. In the manufacture of this surge arrester is the Porcelain housing exposed to high temperatures, as in the formation of the adhesive layer liquid glass is poured into the porcelain housing. In addition, it is necessary that To install fittings with a cement at the ends of the porcelain housing.

Another surge arrester with a cylindrical active part on the base of metal oxide varistors is described in EP 0 335 479 B1. This surge arrester has a thread wound as a housing and two metal fittings completed Isolierstoffrohr and an elastomeric weather protection on which the lateral surface of the insulating tube is held. In the production of this Surge arrester is the insulating tube by winding the two Fittings and the varistors containing active part formed.

BRIEF SUMMARY OF THE INVENTION

The invention, as indicated in claim 1, is based on the object to specify a surge arrester of the type mentioned, which itself due to a high mechanical strength and good dielectric properties characterized and yet produced in a simple and cost-effective manner can.

The inventive surge arrester is characterized by the fact that it is in few and easy-to-carry out procedures quickly and in the utmost can be produced inexpensively and still have excellent mechanical and electrical properties. Typical process steps are making an injection molded or extruded fiber reinforced pipe and an elastomeric tube, as well as the nesting and screwing each other tuned parts to form the active part receiving arrester housing and filling the arrester housing with an insulating material forming, preferably room temperature curable liquid. By suitable choice of the fiber-reinforced and of the elastomeric material, the mechanical strength and the dielectric Behavior of the surge arrester can be improved. In the production of the injection-molded or extruded tube can be simultaneously in the direction of the tube axis aligned guide rails are formed, which form the inner wall of the Fiber-reinforced tube from the cladding area of the active part space. The thus formed Hollow-cylindrical space after filling with insulating material improves the dielectric Characteristics of the surge arrester in addition.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig.1

eine Aufsicht auf ein in axialer Richtung geschnittenes erstes Ausführungsbeispiel des Überspannungsableiters nach der Erfindung mit einem in einem Isolierstoffgehäuse befindlichen und zwischen zwei zylinderförmigen Armaturen angeordneten, zylinderförmigen Aktivteil,

Fig.2

eine Draufsicht auf die dem Aktivteil des Überspannungsableiters gemäss Fig.1 zugewandte Stirnseite einer der beiden Armaturen,

Fig.3

eine Seitenansicht der Armatur gemäss Fig.2, und

Fig.4

eine Aufsicht auf ein in axialer Richtung geschnittenes zweites Ausführungsbeispiel des Überspannungsableiters nach der Erfindung.

In the drawings, embodiments of the invention are shown in simplified form, namely shows

Fig.1

a plan view of a cut in the axial direction of the first embodiment of the surge arrester according to the invention with a located in an insulating material and arranged between two cylindrical fittings, cylindrical active part,

Fig.2

a plan view of the active part of the surge arrester according to Figure 1 facing the front side of one of the two valves,

Figure 3

a side view of the fitting according to Fig.2, and

Figure 4

a plan view of a cut in the axial direction of the second embodiment of the surge arrester according to the invention.

WAYS FOR CARRYING OUT THE INVENTION

In all figures, like reference numerals designate like-acting parts. The in 1 surge arrester has a two-part insulating 1 on, which of an insulating tube 2 and on the outer surface of the tube. 2 with the help of a layer of grease in a watertight manner deferred, shielded Weather protection 3 is formed. The insulating tube 2 contains predominantly a thermoplastic Polymer, such as preferably a polyamide, and embedded in the thermoplastics Filler, preferably glass fibers in a proportion of 20-60, for example 30 or 50% by weight of the insulating tube. Such a tube can be particularly simple and be produced inexpensively by extrusion or injection molding.

The weather protection 3 is of an elastomeric polymer, preferably based an ethylene, propylene, silicone, fluorosilicone or fluoro rubber, formed and is advantageously produced by injection molding. Of particular advantage here is when the umbrellas 4 of the weather protection 3 are guided radially. The for the pouring of the Weatherproof 3 necessary form can then be designed so that the not too avoiding Giessnaht forms the outer edge of the umbrellas 4 and between the Umbrellas run, but not in the dielectrically most heavily loaded areas above the top and bottom of the lowest screen. 4

The provided between the insulating tube 2 and the weatherproof 3 grease is preferably a silicone grease. This grease seals the insulating tube 2 and the Weather protection 3 against each other, reducing the ingress of moisture between Isolierstoffrohr 2 and weather protection 3-prevented. At the same time, the grease makes it easier Sliding the weather protection 3 on the insulating tube 2 during assembly of the Surge arrester and also improves the dielectric properties the insulating housing 1.

In the production of Isolierstoffrohrs 2 by injection molding or extrusion is a the lower end of the tube 2 final, cylindrical fitting 5 from an electrically conductive material such as alloyed or non-alloyed Aluminum or copper, molded into the tube 2. A suitably trained Armature 6 made of the same material closes the insulating tube 2 from above.

When manufacturing the Isolierstoffrohrs 2 are in the inside of the tube 2 at the same time at least three aligned in the direction of the tube axis guide rails. 7 formed. The guide rails 7 are in the circumferential direction of the insulating material. 2 arranged uniformly distributed and thus spaced the inner wall of the insulating tube 2 of the lateral surface of a located in the interior of the insulating tube, Cylindrically shaped active part 8. This active part 8 contains a columnar formed varistor on the basis of metal oxide or several disk-shaped trained and arranged with the interposition of contact discs columnar Varistors each based on metal oxide. The hollow cylindrical space between Active part 8 and insulating tube 3 is to improve the dielectric behavior of the Surge arrester filled with insulating material. Advantageously, this insulating material formed by a room-temperature-cured silicone-based resin, which in the installation of the surge arrester initially in the form of a Liquid is filled into the interior of the insulating material 1.

From Fig.1 it can be seen that the fittings 5, 6 each one in an outward pointing end face formed and guided on the lateral surface, annular Have a depression. This depression is in FIG. 3 with reference numeral 9 characterized. The depression of the lower end of the Isolierstoffrohrs second final fitting 5 serves to receive a radially inwardly guided Collar 10 of the tube, which is formed in the manufacture of the tube 2. Of the Collar 10 engages behind the valve 5 and thus closes in the recess. 9 formed and guided in the direction of the tube axis through holes 11. The Depression of the fitting 6 serves to receive insulating material, which after the Filling the insulating material housing 1 with the first liquid insulating agent from the tube 2 occurs and then cured at room temperature to the insulating material.

On its two inwardly facing end faces, the two fittings 5, 6 in each case a plurality of contact cam 12, while on their two outwards pointing end faces in each case an internal thread 13 is inserted, which is the Receiving a threaded bolt 14 for establishing a galvanic connection to a power connection conductor is used (Fig.1). In the lateral surfaces of the two fittings. 5 and 6 each have an external thread 15 is inserted. The external thread 15 of Armature 5 holds this formed on the pipe 2 fitting in the action of an axial Force stationary in the insulating tube 2, whereas the external thread 15 of the valve 6 with a molded into the upper end of the tube 2 internal thread to form a cooperates axially acting force.

At the lower end of the insulating material 1 arranged metal lid 16 and 17 are by means of two guided on the threaded bolt 14 nuts 18 against the housing first pressed and thus prevent unwanted moisture from entering the interior Arrives surge arrester.

This surge arrester has with the active part 8, the insulating tube 2, the Weather protection 3, the two fittings 5 and 6, the unmarked insulating material between the active part 8 and insulating tube 2 and the two covers 16 and 17 eight easy to install parts, of which in addition two each, namely the fittings 5, 6 and the lid 16, 17, are formed similarly. Therefore, the surge arrester can quickly and in a process that is particularly suitable for mass production getting produced.

Such a method is advantageously carried out as follows:
In the already the lower armature 3 containing and therefore cup-shaped Isolierstoffrohr 5, the active part 8 is inserted and subsequently closed the upper end of the tube 2 by screwing the valve 6. To screw in can engage in the through holes 11 a tool. The valve 6 is screwed into the inside of the tube until the contact cam 12 of the two valves 5 and 6 rest with sufficient contact force on the two end faces of the active part 8. Since the tube 2 has a relatively high elasticity, it is ensured that this contact force is maintained during the operation of the surge arrester.

The following example, by means of a hypodermic needle through in the upper Armature 6 provided through holes 11 in the through the guide rails 7 supported hollow cylindrical space between the active part 8 and the insulating tube 2 liquid insulating introduced. Since those provided in the lower armature 5 Through openings 11 are closed by the collar 10, the insulating means do not escape down. When curing from the through holes 11 of the upper fitting 6 leaking liquid insulating agent is in the recess 9 of the Armature 6 collected and forms after completion of the curing process also a collar sealing the housing interior. Through the over the ends of the Weatherproof 3 collar lid 16 and 17, the housing interior is still additional sealed.

In general, the two covers 16, 17 are made of metal, such as steel or aluminum or an aluminum alloy. In a preferred embodiment However, according to the invention, at least the lid 17 is made of a material which to form a joint 19 in a simple manner with the insulating tube 2 non-positively welded, soldered or glued. A particularly solid Mechanical connection is achieved when the lid 17 of the same material consists of the insulating tube 2, and if the connection by welding the upper edge of the insulating tube 2 and the cover 17, in particular with ultrasound, is reached. Such a produced surge arrester is distinguished by a great mechanical strength, since the active part 8, especially at a current impulse load, delivered tensile forces now not only on the external thread 15, but also on the connection point 19 of the valve 6 on the Insulating tube 2 are transferred. At the same time, by connecting the two Parts 2 and 17 further hinder the penetration of water into the housing interior.

In the embodiment of Figure 4, the weather protection 3 is at its upper end formed closed and has a cover part 20, which the lid 17th dispensable. In addition, increase in this embodiment by the Weather protection 3 and the insulating tube 2 in the fittings 5, 6 guided pins 21 the mechanical strength of insulating tube 2, weather protection 3 and the fittings 5, 6 formed envelope of the active part 8, especially under tensile load, quite considerably. To ensure an even transmission of power, it is recommended that the Distribute pins in the circumferential direction evenly. Already with three pins per fitting the mechanical strength is significantly increased. Depending on the diameter of the Isollerstoffrohrs 2 but can also be used more than three pins.

By the pins 21, the mechanical strength of the surge arrester according to the embodiment described above even further improved become.

name list

1

Insulated

2

insulating material

3

weatherproof

4

umbrellas

5, 6

fittings

7

guide rails

8th

active part

9

depression

10

collar

11

Through openings

12

Contact cams

13

inner thread

14

threaded bolt

15

external thread

16, 17

metal lid

18

nuts

19

junction

20

cover part

21

pencils

Claims (13)

1. Overvoltage suppressor having a cylindrical active part (8), which is arranged between two live, cylindrical fittings (5, 6) and contains at least one varistor on a metal-oxide base, and having an insulating material housing (1) which surrounds the active part (8) like a casing, is closed at the ends by the fittings (5, 6), is formed by an insulating material tube (2) as well as a shielded weather protection (3) which is held on the outer surface of the tube (2), and is filled with insulating material, wherein a first (5) of the two fittings (5, 6) is formed into the tube (2) at a first of its two ends, and an external thread (15) on the second fitting (6) is screwed into an internal thread in the tube (2), forming a contact force, characterized in that the insulating material tube (2) is formed from a fibre-reinforced, injection-moulded or extruded thermoplastic, and that at least three guide rails (7), which are aligned in the direction of the tube axis, are formed into the inside of the tube (2), which guide rails distance the inside of the tube (2), forming a space, filled with the insulating material, of the outer surface of the active part (8).
2. Overvoltage suppressor according to Claim 1, characterized in that the thermoplastic is a polyamide containing about 20-60, preferably 30 to 50,% by weight of glass fibre.
3. Overvoltage suppressor according to either of Claims 1 and 2, characterized in that the two fittings (5, 6) each have an annular indentation (9) which is formed into its outward-pointing end surface and is positioned on its outer surface.
4. The overvoltage suppressor according to Claim 3, characterized in that the indentation (9) in the first fitting (5) holds a collar (10) of the tube (2), which collar (10) points radially inwards.
5. Overvoltage suppressor according to either of Claims 3 and 4, characterized in that at least one through-opening (11), which points in the direction of the tube axis, is formed into the indentation (9).
6. Overvoltage suppressor according to Claim 5, characterized in that the indentation in the second fitting (6) holds insulating material which is formed by the curing of a liquid insulating agent, the liquid insulating agent predominantly being passed via the through-openings (11) into the indentation (9) from the housing interior.
7. Overvoltage suppressor according to one of Claims 1 to 6, characterized in that the two fittings (5, 6) each contain, on their inward-pointing end surface, contact studs (12) which are seated on the end surface of the active part (8).
8. Overvoltage suppressor according to one of Claims 1 to 7, characterized in that the weather protection (3) has at least one radially running shield (4).
9. Overvoltage suppressor according to one of Claims 1 to 8, characterized in that the ends of the insulating material housing (1) are closed by two covers (16, 17) which project over the ends of the weather protection (3).
10. Overvoltage suppressor according to Claim 9, characterized in that one (17) of the two covers is connected via at least one connecting point (19) to the second fitting (6).
11. Overvoltage suppressor according to Claim 10, characterized in that the connecting point (19) is formed by welding, in particular ultrasound welding, soldering or bonding.
12. Overvoltage suppressor according to one of Claims 1 to 8, characterized in that one of the two ends of the insulating material housing (1) is closed by a cover part (20) which is integrated in the weather protection (3).
13. Overvoltage suppressor according to one of Claims 1 to 12, characterized in that at least one of the two fittings (5, 6) is additionally fixed by pins (21) which are passed from the outside, through the insulating material tube (2), into the at least one fitting (6).

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