DE6949794U - METAL SHEATHED CABLE WITH INTERNAL PRESSURE - Google Patents

Description

SIS-IEI-S AKTIENGESELLSCHAFT. Erlangen, December 12th, 1969 \

Berlin and Munich · V / erner ~ von-Siemens-Str. 50;

Our Ze i. en: YTA 69/0144

Zm / Sdz

Metal jacket cables are subject to internal pressure

It is known to use metal corn cables, especially lead cables, to be provided with a pressure protection bandage, especially during operation The internal pressure to be expected threatens to exceed the low strength of the lead jacket. This is always the case with oil or gas pressure cables this is the case and can also be possible if I-Iasse cables have to bridge large differences in height or if cables are operated with pressurized gas monitoring.

The pressure protection bandage has so far been made of metallic materials manufactured (Swiss patent specification 150 541), namely from steel strips in three-wire cables for three-phase systems, while in the case of single-core and three-jacket cables, non-magnetic ones Ketal bands were used.

Non-metallic ones are also used for armoring cables Materials have been used. For example, a light deep sea cable (German utility model specification 1 933 154) is known at Reinforcement made of fiberglass is provided to increase the tensile load on the cable.

Furthermore, the above-mentioned internal pressure is claimed Metal jacket cable a pressure protection bandage made of non-metallic material known (US Pat. No. 2,690 9 & 4), which consists of a or several plastic straps reinforced with fiberglass.

The innovation also deals with an internal pressure Metal sheathed cable with a pressure protection bandage made of non-metallic material using glass fibers.

VPA 69/0144 - 2 -

According to the innovation, the pressure protection bandage consists of glass fiber yarns or glass fiber yarns which are spun onto the metal jacket which is subjected to internal pressure with a short lay, ie with a lay length that is smaller than the cable diameter. A considerably improved pressure protection is achieved hereby, since the pressure protection bandage exclusively from the internal pressure of the metal jacket? ¹ absorbing fiberglass yarns or fiberglass twines. The .virksar.keit the pressure protection bandage is also increased by the fact that the glass fiber yarns or glass fiber threads are spun onto the metal jacket with a short blow, so that the internal pressure load on the metal jacket is transferred to the pressure protection bandage in full height.

In order to absorb any tensile forces that may be exerted on the I-metal linear jacket, which is subject to internal pressure, it is also advisable to do so for the pressure protection bandage one with a long lay, i.e. with a lay length that is greater than three times the cable diameter is "applied" covering made of glass fiber thread or glass fiber thread to be provided. It is useful here to apply the pressure protection cover with a short blow and that with a long blow applied spinning through an intermediate layer of paper or. to separate from a plastic film. As a result, the between the pressure protection bandage and the spinning kept as small as possible.

In a trained according to the! Inflation stressed internal pressure It is also advantageous if the with Pressure protection bandage applied with a short lay and, if necessary, the spinning made of several side by side with a long lay consists of horizontally spun glass fiber yarns or glass fiber twines. To frictional forces between the adjacent To avoid spun-on glass fiber yarns or twines, it is advisable to place between the individual glass fiber yarns or - twist to provide a small distance. The resulting gaps can be covered with an asphalt compound, preferably be filled with a bitumen mass, to the low

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Distance between the glass fiber yarns or glass fiber threads as well Maintain for long periods of time.

To explain the increase in price, two exemplary embodiments of internal pressure stressed in accordance with the increase in price are shown in FIGS Ketal jacket cables shown.

FIG. 1 shows a single conductor oil cable 1, the hollow one of which is composed of several Profile wires consisting of 2 conductors from a large number is surrounded by layers of paper insulation 3. The metal foil 4 is spun onto this paper insulation, which in turn is surrounded by the lead jacket 5. Over that lead coat there is the pressure protection bandage 6, the one from 10 lying next to each other spun-on glass fiber yarns. These fiberglass yarns are spun with a short lay, i.e. their lay length is smaller than the cable diameter. The pressure protection bandage 6 is also covered with a bituminous mass, not shown, which fills the spaces between the individual glass fiber yarns, above the pressure protection bandage 6 Finally, there is the outer plastic jacket 7 made of polyvinyl chloride.

In Figure 2, the internal pressure cable β is shown, its tubular Metal jacket 9 surrounds the three cable cores 10, 11 and 12 that are stranded together.

The tubular metal jacket 9 is with the pressure protection bandage 13 and provided with the spinning 14 applied over it to accommodate accessories that have been unscrewed from the cable. the pressure protection collar 13 consisting of 15 glass fiber threads placed next to one another is applied with a short stroke, i.e. with a lay length that is smaller than the cable diameter. The spinning 14, on the other hand, is applied with a long lay, i.e. with a lay length that is greater than three times the cable diameter.

The pressure protection bandage 13 and the spinning 14 are through the

'" VPA 69/0144

Intermediate layer 15 made of a plastic film separated from one another. Furthermore, both the pressure protection bandage 13 and the Reflection 14 with a thin layer (not shown) Bituminous mass coated to the spaces between each To maintain fiberglass twists and thus the occurrence of frictional forces between the individual fiberglass avoid.

Finally, the plastic jacket 16 made of polyethylene is located over the spinning 14 applied with a long lay.

2 figures
7 claims

Claims (7)

VPA 69/0144 S ^ hat t claims 1 . Internal pressure stressed metal sheathed cable with a pressure protection bandage made of non-metallic; !! Material under Use of glass fibers, characterized in that the pressure protection bandage is made from glass fiber threads or glass fiber threads consists, which with a short lay, i.e. with a lay length that is smaller than the cable diameter the inside stressed metal jacket are spun on., ' 2. Internal pressure stressed metal sheathed cable according to claim 1, characterized in that, in addition to the pressure protection bandage, one with a long lay, i.e. with a lay length that is greater al3 is three times the cable diameter, applied spinning made of glass fiber yarns or glass fiber twines for absorption of tensile loads is provided. 3. Internal pressure stressed metal sheathed cable according to claim 2, characterized in that the applied with a short stroke Pressure protection bandage and the spinning applied with a long lay are separated by an intermediate layer of paper or a plastic film ^ 4. Internal pressure stressed metal sheathed cable according to one of the Claims 1 to 3, characterized by that the short Impact applied pressure protection bandage and, if necessary, the spinning made of several juxtaposed with a long blow on spun glass fiber yarns or threads consists./ 5. Innendrucl-; beanr_, pruchteo metal sheathed cable according to claim 4, because it is characterized by the fact that the lying next to each other Glass fiber yarns or twisted yarns with a small spacing are applied from each other on the cable jacket. t I »t · t« · · VPA 69/0144 - 6 - 6. Innenäruckbeanspruchtes metal sheathed cable according to claim 5, characterized in that the spaces between the glass fiber yarns applied at a small distance from each other or twisting with an asphalting compound, preferably with a bitumen mass, filled out 7. Innenäruckbeanspruchtes metal jacket cable according to one of claims 1 to 6, characterized in that over the with pressure protection bandage spun in a short stroke or an outer plastic jacket over the spinning applied with a long stroke is provided. G949794