DE3229352A1 - HALOGEN-FREE, FLAME-RESISTANT CABLE WITH FUNCTIONALITY IN THE EVENT OF FIRE FOR A PARTICULAR TIME - Google Patents

Description

AEG-TSLS? UMEN cable works AktlongeselIschaft, Rheydt Bonnenbroieher Str. 2-14

4050 Mönchengladbach 2

July 30, 1932 KG 81/5

ν, Ό / Schr

Halogen-free, flame-retardant cable with functional circuit in case of fire for a certain time

The invention relates to a cable in the preamble of claim 1 mentioned Art.

Cables of the type mentioned are mainly used in fire-endangered systems with a high number of persons and property rights ent ration, where no corrosive secondary damage ("halogen-free") should not occur in the event of a fire and it is necessary to maintain the functionality of cables for a certain period of time ("emergency running properties").

Cables that meet these requirements are known. In DE-03 28 47 810, for example, a flame-proof electrical line described whose individual conductors are insulated with a thermoplastic or elastomer and from a

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Asbestos extrusion imput cind. Let as a flame-proof barrier In addition to asbestos, there is also a mica or ice cover available.

The object on which the invention is based, that the cable the known solution in the case of an Erandes no corrosion promoting Has properties, v; ied by an asbestos extrusion achieved as a protective sheath. Processing of Asbestos is now generally considered to be harmful to health Efforts are made to replace this material with other materials. Using just one layer of mica

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or Glassc-ide has other disadvantages such as

- A glass silk braid melts at about 'JSC ⁰ C; an "ITctrun property" is therefore not guaranteed.

- A mica wrapping over the wire can worsen the electrical transmission behavior lead, since the mica platelets used run the risk of penetrating the core insulation can.

Required by a cable "Kotlaufeigenschaften" in case of fire are usually by a C? Est proven 33 "'according to the IEC. Here This puncture ability test is on a Kus he ~ at a riarsnieinwirkunc of 600 ⁰ C a Funktionsfänirrkeit called for at least three hours. Applies however, only on the insulation behavior of the cable to be tested, not on the electrical "transmission behavior in the ITP area, for example when telephoning. A flawless electrical" transmission behavior in the ITF area is at least just as crucial and important in the event of a fire a sufficient insulation behavior.

The object of the invention is to provide a halogen-free, flamr.-v.'idriges To create cables so that in the event of a fire, "emergency properties" having. In the event of a flame interference, the cable should remain fully functional for at least three hours from 800 C (IEC test 331) · Beyond that the cable according to the invention should have a very good transmission behavior in the low-frequency range even in the event of fire.

This object is achieved according to the invention by in the characterizing 'part of claim 1 specified rierkr.ale. More advantageous developments of the object of claim 1 result from the subclaims.

The use of a conductor coating with v.ärnesperrendcn Properties increases the tensile strength under the action of flame in the cable according to the invention.

What is decisive, however, is that this conductor coating is made of nind-icten? z-vkj. and there are different components which are specified in more detail in the subclaims. Flaking and indentation of mica flakes into the Acer insulation and thus a deterioration in the electrical transmission behavior both in the ITF area and in relation to the insulation behavior is avoided. The use of an inner jacket made of a flare-resistant polymer mixture of ketal oxide hydrates and other fillers makes it possible to use conventional, non-flammable core insulation materials with very good electrical transmission properties in the KF area.

The invention is explained in more detail below.

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The cable constructed according to the invention only consists of:? '. l-endon Construction stages:

ladder

Conductor winding

Core insulation

Inner jacket (? Oil! Mixture)

Ami e

Outer jacket

Door the v.'ärrr.e blocking coating of the ladder has become the following structure proved to be advantageous.

ε-) Two layers of spirally wound glining paper uni over that a layer of G-lasseider-Uiiiflechtunr or Bo ^T .. ^f ic> lu.r.- ~.

Unflighting is advantageous for smaller cross-sections (for example at 1.5 r ^), v; during cine Ur; .- spinning is advantageous for larger cross-sections.

b) As an alternative to a), there is also a coated fiberglass tape. The coating consists of one Halogen free flame retardant polymer. It is crucial that this coating has an oxygen index of at least 4-0 (preferably 50). In the case of the IEG 3J '^ Functional test carried out in the event of flannel exposure At approx. 000 ° G, even better insulation properties are found achieved than with the Glinner / Glasseii given under ε) 3 e s c ■ ii caution.

In addition to conventional VPE, good core insulation was also used Results achieved with mineral-filled cross-linked polyolefins. Preference is given to an LPR / VPE copier blend, which is crosslinked by conventional methods.

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A flame-retardant polymer mixture is used for the inner jacket used from ketal oxide hydrates and other fillers. This material is preferably halogen-free and mineral highly filled and "has an oxygen index of at least 4-0. Preference is given to materials that contain acid: of 50 have.

The reinforcement is applied over the jacket. she consists preferably of a steel mesh. If a If a non-metallic design is desired, a coated or uncoated fiberglass braid is considered Reinforcement possible.

The outer jacket consists of a polymer, halogen-free Material. This material should be oil-resistant and, if necessary, water-resistant

Very good results were achieved with the halogen-free polymer mixture, as known and described by DE-Oß 28 4 ° 3-D.

OK claims
5 pages description

Claims (10)

AEG-TELEFUNUNGEN cable works Aktiengesellschaft, Rheydt Bonnenbroicher Str. 2-14 4050 Mönchengladbach 2 July 30th Ί9Β2 MG- £ 1/5 Claims Halogen-free, flame-retardant cable with functional retention in the event of fire for a certain period of time with at least one polymerized conductor (core), an embedding layer (inner sheath) surrounding the cores, armouring and an outer covering (outer sheath) made of a polymeric, halogen-free material, This rcekenr.zclehnet that the conductor is provided with at least one coating, which consists of a mineral material, is heat-resistant and has two different components and that the inner jacket consists of a flame-retardant polymer mixture of metal oxide hydrates and other fillers. 2. Cable according to claim 1, characterized in that the ■ heat-resistant coating of at least two layers of spiral-wound mica paper and a layer of glass - 2 - there is silk braiding or wrapping. 3. Cable according to claim 1, characterized in that the heat-resistant coating consists of at least one layer of spiral-wound fiberglass tape coated with a halogen-free, flame-resistant film. ^ -. Coated fiberglass tape according to Claim 3, characterized in that the polymer mixture of the coating has an oxygen index of at least 40. 5. Cable according to one of claims 1 to 4, characterized in that the core insulation consists of a mineral-filled cross-linked polyolefin material. 6. Polyolefin material for core insulation according to claim 5? characterized in that the mixture used consists of a blend of polymers and / or copolymers of the Efcfcylens, preferably.EPH, EVA and PE. 7. Cable according to one of claims 1 to 6, characterized in that the flame-retardant polymer mixture cee inner jacket consists of a halogen-free, minerally highly filled material with an oxygen index of at least 40. 5. Cable according to one of claims 1 to 7? characterized labeled in characterized in that the reinforcement consists of a Stahlgefiecht. 9. Cable according to one of claims 1 to 7i, characterized in that the reinforcement consists of a glass silk braid. ♦ «a w * 10. Cable according to one of claims 1 to 7 ■> there through shows that the reinforcement consists of an iialcron-free, Flame-resistant polymer-coated fiberglass braiding consists.