DE29508892U1 - Insulating piece for a pipeline - Google Patents

Description

PATENT ATTORNEYS
DIPL.-ING

. HEINER LICHTI"

DIPL.-PHYS. DR. RER. NAT. JOST LEMPERT D-76207 KARLSRUHE {DURLACH)

PO BOX 410760
DIPL.-ING. HARTMUT LASCH TELEPHONE: (0721)9432815 FAX: (0721)9432840

RMA Machine and 13250.3/95 La/ju

Armaturenbau Kehl 29 May 1995

Faulhaber & Truttenbach KG
Oststrasse 17

77694 Kehl / Rhine

Insulating piece for a pipeline

The invention relates to an insulating piece for a pipeline with two essentially coaxially arranged
Pipe sections, each of which has a circumferential collar at its mutually facing ends and is connected by means of

of an insulating ring are separated from each other, whereby
a bell-shaped part is attached to one of the collars, which surrounds the other collar on the outside to form a cavity, and wherein a projection projects into the cavity, which defines a desired spark-over distance.

Such an insulating piece is usually used in gas lines, for example to electrically insulate sections of a gas line from each other. In order to bring about a defined discharge between the insulated line sections when a larger electrical voltage potential occurs, a target spark-over distance is provided, which is intended to ensure a spark-over at a predetermined location.

From DE 36 39 815 C2, which is the basis for the preamble of claim 1, it is known that the target spark gap is provided between a circumferential ring flange, which is conductively connected to one of the pipe sections, and the other pipe section. In this way, the discharge is supposed to occur distributed over the ring surface, which is supposed to result in a lower energy density. It has been shown that in practice, however, this advantageous effect only occurs in the event of a lightning strike if the spark gap, i.e. the distance between the ring flange and the other pipe section, varies in terms of its length over the circumference within very narrow limits. Deviations of just 1/10 mm at one point are sufficient, so that the spark preferably crosses at this point, which results in a high energy density at a specific point. Since the ring flange is made of carbon steel, when sparks pass through the transition point, steel particles melt due to the high temperatures that are created. These particles are thrown into the cavity between the two pipe sections and can thus cause a short circuit. The short circuit makes the insulating piece unusable for further use and it must be removed, which usually means digging it out.

This is not only laborious, but also time-consuming and therefore costly.

The invention is based on the object of creating an insulating piece of the type mentioned, in which a defined sparkover is guaranteed even when high energy potentials are discharged and a short circuit is reliably avoided.

5 This object is achieved in an insulating piece according to the invention in that the projection is formed by a rod

·

which is made of a highly heat-resistant material.

According to the invention, the rod is used to form an essentially point-shaped spark transfer point, where the spark preferentially transfers even in the event of a lightning strike. Although this leads to a very high energy density, damage to components can be reliably prevented according to the invention by the rod being made of a highly heat-resistant material. The material does not melt even at the relatively high temperatures as a result of the spark transfer, so that no material particles can get into the cavity. A short circuit can be reliably avoided in this way.

It has been shown that melting of the rod can be reliably avoided even in the event of a lightning strike if the material of the rod has a melting point of 0 more than 2500 ⁰ C. A large number of corresponding materials are known, but a rod made of tungsten or a tungsten-copper alloy is preferably used for the insulating piece.

In a preferred embodiment, the rod extends essentially radially to the pipeline. The desired spark-over distance should extend between a radially inner surface of the bell-shaped part and a radially outer surface of the other collar overlapped by the bell-shaped part. The rod can be held either on the other overlapped collar or on the bell-shaped part. The latter embodiment has the advantage that the rod can be inserted from the outside of the bell-shaped part into a through-hole formed in it and secured so that it is located on the radially

inner side extends into the cavity. This makes it easy to install the rod.

Further details and features of the invention are apparent from the following description of an embodiment with reference to the drawing, which shows a longitudinal section through an insulating piece in a partial representation.

According to the figure, an insulating piece 10 has a first tube section 11, which has a circumferential collar 12 at one end. A second tube section 13 is arranged coaxially to the first tube section 11 and also has a circumferential collar 14. The two collars 12 and 14 face each other and are electrically separated from each other by means of an intermediate insulating ring 15.

0 A bell-shaped part 16 is attached to the collar 12, which consists of a cylindrical casing part 16a and an annular part 16b connected to it. The bell-shaped part 16 overlaps the collar 14 of the second pipe section 13 at a certain distance. The space formed between the outer surface of the second pipe section 13 or the collar 14 and the inside of the bell-shaped part 16 is partially filled with an insulating compound 17, but a cavity 18 is left free between a radially inner surface 16c of the casing part 16a and 0 a radially outer surface 14a of the collar 14. In the jacket part 16a, a through-hole is formed which is directed essentially radially towards the pipeline, into which a rod 19 is inserted from the outside, which extends on the inside into the cavity 18, but is not in direct contact with the collar 14. The rod consists of a material

material with a melting point of at least 2500 ⁰ C, for example tungsten or a tungsten-copper alloy. Between the radially inner end of the rod 19 and the radially outer surface 14a of the collar 14, a predetermined spark gap is formed over which, when an excessive energy potential arises, for example in the event of a lightning strike, a spark jumps in a predetermined manner and causes a discharge.

Claims (1)

Protection claims 10 Insulating piece for a pipeline with two essentially coaxially arranged pipe sections, which each have a circumferential collar at their mutually facing ends and are separated from one another by means of an insulating ring, with a bell-shaped part being attached to one of the collars, which surrounds the other collar on the outside to form a cavity, and with a projection protruding into the cavity, which defines a desired spark-over distance, characterized in that the projection is formed by a rod (19) which consists of a highly heat-resistant material. 15 Insulating piece according to claim 1, characterized in that the material of the rod (19) has a melting point of at least 2 500 ^° C. 20 Insulating piece according to claim 1 or 2, characterized in that the rod (19) consists of tungsten or a tungsten-copper alloy. 4. Insulating piece according to one of claims 1 to 3, characterized in that the rod (19) runs essentially radially to the pipeline. 5. Insulating piece according to one of claims 1 to 4, characterized in that the desired spark gap extends between a radially inner surface (16c) of the bell-shaped part (16) and a radially outer surface (14a) of the other collar (14). 6. Insulating piece according to one of claims 1 to 5, characterized in that the rod (19) is held on the bell-shaped part (16). 7. Insulating piece according to claim 6, characterized in that the rod (19) is introduced into the cavity (18) from the outside of the bell-shaped part (16).