DE687076C - Low-voltage electrical cable with insulation made of alkali-silicate-soaked asbestos - Google Patents

Description

Electric low voltage cable with an insulation made of alkali silicate impregnated Asbestos The subject of the invention is an insulated electrical line or a Low voltage cable, the insulation of which is designed so that it does not break when it occurs high temperatures, such as a short circuit or a similar line fault pulls, has an arc-extinguishing effect.

In low-voltage distribution networks, the operating conditions are peculiar stored, and in particular a protection against overloading of the lines cannot be reached by the usual protective devices such as switches or the like, and as a result, it cannot be avoided that when a short circuit occurs or an overload due to some other fault, the conductor itself melts and burns away. An arc always forms in which the usual, mostly at least partially decompose insulation consisting of organic substances. It. In the process, inflammable or explosive gases are often formed, which lead to the progression of the arc in the. Tubes in which the cables are laid, not just none Oppose obstacle, but still favor it until the arc has a Place, e.g. B. a cable well, where there is sufficient space for extinction of the bow is present. But this has the destruction of long cable lengths and often even the spread of the fault to other circuits with the far-reaching ones Damage and extensive business interruptions result.

In addition to the damage that the system itself suffers, there is still another one a much more serious hazard as a result of the explosions caused by the Decomposition of the insulating material can be caused by forming gases. Some Damage to property and personal injury has already occurred in this way.

This is all the more true in large buildings where I @ low voltage networks be used for power distribution and where the cables are both horizontal and vertical Channels are laid and therefore there is a particularly high risk of explosion and fire exist.

The electrical line insulated according to the invention or that according to the invention insulated electrical cable is particularly suitable for use in low voltage high voltage networks suitable. The structure of the insulation according to the invention is characterized by that it contains means that. in the event of a short circuit or overload reduce the duration of the arc to a minimum as a result of a similar fault, so that both a more extensive Destruction of the facility as well the fault is prevented from spreading to other circuits. Furthermore is the possibility of explosion or fire in underground systems and Cable wells avoided completely because none of the conductors insulated according to the invention flammable, explosive or toxic gases if an electric arc occurs can develop.

According to the invention, the line or cable consists of a conductor, which is surrounded by insulation, which is under the action of short circuits o. The like. Induced temperature increases are not flammable, explosive or toxic gases develop and at these temperatures a glassy mass around the conductor forms around. On the other hand, the insulating material has the physical and electrical Properties necessary for normal work when laying and operating the Line or cable are required. The formation of the glassy mass takes place only if the insulating material is inappropriately high temperatures, e.g. B. zooo ° and higher, is exposed. The insulation consists solely of asbestos, which is mixed with alkali silicate, z. B. sodium silicate, is soaked, and that the isolation contains on average so a lot of alkali silicate that this under the action of high temperatures with the asbestos combined into a glassy mass. The one with alkali silicate is useful soaked asbestos separated from the metal core by a liner that allows penetration of the alkali silicate to the surface of the metallic conductor prevented. Such a one Liner advantageously consists of asbestos, originally with boric acid, borax or another inorganic, electrically non-conductive substance is soaked, which acts on the alkali silicate so that it does not reach the metal surface of the Conductor can penetrate. The asbestos is free of cotton throughout the insulation or other organic substances that form vapors at high temperatures.

For the insulation of electrical resistance coils and radiators the use of asbestos or mica is already known, if necessary is brought in drying porridge form between the layers to be insulated or in Form of a layer covered with a hardening and optionally binding insulating compound is coated. So this is a hard and brittle insulation, which is probably sufficient for the intended purpose, but in the case of wires and cables, which have to be bent when laying, is unusable.

Also the well-known insulation with an impregnation of braids yon cables with fire-resistant liquids only leads to hard, brittle and not flexible insulating layers, apart from the fact that the braiding is due to overload caused heating gives rise to the development of explosive gases.

The latter is also the case with a known design; after which the cable is only covered with refractory fiber material after it has been laid, the then soaked in a self-hardening, fire-resistant liquid. Here but even after this proposal the cable is insulated with a rubber layer at the beginning, Here, too, flammable, explosive gases are generated when overheating, as is the case with the proposal, an innermost one containing rubber and cotton Provide an insulating layer; those containing a starch paste and linseed oil Putty should be surrounded, as is the case when cellulose, synthetic fibers and the like can be used to build up the insulation.

Even with the asbestos insulation that has already been proposed,, the is soaked with ethyl silicate, explosive gases are formed in the event of high overheating.

In the drawing, the structure of the cable according to the invention is shown. The conductor z consists of stranded copper wire and is pure with several layers Wrapped in asbestos that does not contain cotton or other organic matter. the first asbestos 2 is soaked with a solution of boric acid o. The like. While the other asbestos layers 3 with an alkali silicate, z. B. sodium silicate, in changing Rods per unit of weight are soaked, with the one required for lines and cables Flexibility is preserved.

A layer is used in the manufacture of the cable according to the invention untwisted asbestos sliver, free of cotton or other organic material, possibly with a central reinforcement thread made of pure asbestos yarn in a known manner Way applied to the metallic conductor. The fibers of neighboring rovings become matted together, and the asbestos layer is compressed so that they an uninterrupted, even; Forms felt-like layer. The asbestos will then with an aqueous solution of an inorganic, electrically non-conductive substance, z. B. boric acid, soaked, for example by the matted with the first layer Asbestos-provided pipe runs through the boric acid solution, and indeed sufficiently long to completely saturate the asbestos. When the line from the boric acid solution comes out, throws. they in a known manner between revolving facilities bruised, so that the insulating sleeve is compressed and the excess of solution is pressed out will. The line then runs through rotating parts that press it together further and smooth the asbestos layer. The next layer of untwisted asbestos sliver will be applied to the first layer while it is still damp, and the one with the second Location asbestos-provided pipe is now replaced by a solution of sodium silicate or other alkali silicate. After going through this solution becomes the line is again subjected to the pressing and smoothing process described above. Thereafter more asbestos layers are applied and in the same way with sodium silicate solution soaked until an insulating cover of the desired thickness is achieved. Usually three or more layers of alkali-silicate-soaked asbestos are applied, whereby each layer is subjected to the pressing and smoothing process described above. In the end the insulated wire or cable core is vacuum drying at one temperature of about ro7 ° C, at which practically all water is expelled. For Cable, the finished insulated cable core can still be covered with the usual lead sheath q. Mistake will.

The impregnation of the innermost asbestos layer with boric acid, borax or the like. takes place in order to prevent the penetration of the alkali silicate to the metal surface, This means that the insulation adheres to the conductor metal when the temperature rises can entail, so that then the insulation when running electrical Connections would no longer be peeled off the metal; moreover would soldering work, as they do in manufacturing. of connections or the like. Occur, possibly very be made more difficult. Instead of boric acid or borax, other inorganic, electrical non-conductive materials are used, provided they allow the. Alkali silicate solution is caused to gelatinize when it penetrates the second asbestos layer and on boric acid, borax or other substances of this type in the first asbestos layer meets. This effect can also be achieved with any weakly acidic salt, since the Alkali silicate is alkaline and it is only important to neutralize this alkalinity, so that a gel forms. The formation of the gel prevents the penetration of the Alkali silicate so that it cannot reach the metallic conductor. The boric acid or borax solution does not adhere firmly to the metallic conductor and does not interfere either in subsequent soldering work, as z. B. Borax also acts as a flux., Boric acid and borax also do not cause the insulation to stick to the metal. at Using borax, the impregnation solution is expediently at a temperature of approximately 50 ° C, but kept at room or colder temperature with boric acid.

The use of sodium silicate is recommended because of its easy availability and cheapness in the trade. But there can also be other alkali silicates, e.g. B. potassium silicate can be used. Appropriately, an alkali silicate with a high percentage of silica (Si 02) with respect to the alkali oxide, z. B. sodium oxide (Na20), taken because such silicates are less alkaline and their vitreous at high temperatures results in a pipe of great mechanical strength. Very good results can be achieved when using a sodium silicate of the form Nag 0, 3 - 3 S i 02. The following table shows an example of the impregnating agents for the individual asbestos layers: Asbestos impregnating agent layer No. xz kg of boric acid on gl water, No. 2 8o ° / o sodium silicate 2o ° / o water specific gravity 34 ° B6, No. 3 50.% - 50 0/0 - - - 24 ° B6, No. 4 331/3% -. 662/3 0/0 - - - 1 7 ° B6, No. 5 20 ° / o - So o /, - - - = o ° Be, No. 6 as 0/0 -. 90 0/0 - - - 5 ° B6. The specific weight of the sodium silicate is: 40% B8.

The finished insulation of a wire or cable contains approximately 15% dry Na-. trium silicate and approximately 3% boric acid based on the weight of asbestos.

Is subject to the line or cable executed according to the invention a short circuit or other line fault and, as a result, temperature increases Beyond the melting point of copper, the asbestos and sodium silicate combine or the alkali silicate to a solid tube of glassy type, which acts as a resistor against the spread of the arc and an increase in the time of the short circuit acts so that extensive destruction of the cable or other parts of the system does not occur can enter. The exact process that occurs here has not yet emerged determine permit. Because asbestos is a composite magnesium silicate with admixtures of other metals and a certain content of crystal water, so it seems probable that when the temperature rises above 1000 ° C, the water of crystallization is driven out and the sodium metasilicate, which melts at 1088 ° C, dehydrated into the Magnesium silicate flows in and with this a complex sodium or magnesium silicate forms, which merges into a glassy tube, which encloses the metal conductor. A rearrangement of the acidic and alkaline ions is likely taking place, to bring about a chemical equilibrium. The essential feature the line or the cable according to the invention consists in the fact that around the metallic Head around when the temperature increases due to a short circuit or the like. a fusion of the asbestos and the sodium silicate in a glassy protective tube occurs that the molten copper or other conductor metal at the point of failure can flow out, while the arc is finally extinguished wind that its length when -melting the conductor metal by the resulting glassy or porcelain-like tube and thus its electrical resistance between the not melted conductor ends is constantly growing.

Furthermore, according to the invention, no cotton or any other organic material may be used Substance connected to the asbestos insulation. Indeed, the insulation contains none at all. Substance, apart from a small amount of water, from which may form flammable or explosive gases or vapors at high temperatures. The substances contained in the insulation can also become charred at high temperatures do not enter. As a result, errors in underground facilities burn out without that any smoke or gas development occurs by the people in the immediate vicinity Neighborhood could be damaged.

The insulation can also be made with moisture-tight seals that are known per se Sheaths, for example a lead sheath, be protected.

The insulation of the lines or cables according to the invention still has the advantage that it does not dielectrically collapse twice at the same point. If it breaks down once as a result of high voltage, it has the effect of doing so generated heat a glazing; so that the dielectric strength is now higher is than before. Further collapses can then only take place in other places.

The cable according to the invention can be in terms of its flexibility and other physical properties such as the usual insulated cables and Use lines. The glazing does not occur until it is not operational due to a fault high temperatures have been caused between the melting temperature of the Copper and the arc temperature.

Sodium silicate has already been used to produce flammable substances Use in electrical insulation to make incombustible. In the inventive Cable, however, the alkali silicate has a completely different technical effect; because the isolation of the cable according to the invention does not contain any organic or flammable substances at all Substances, and the alkali silicate is used according to the invention only to be at high Temperatures with dehydrated asbestos (magnesium silicate) to a mechanically solid Pipe to connect the metal around.

The substances forming the insulation of the cable do not age either.

Claims (2)

PATENT CLAIMS 1. Electrical low-voltage cable with insulation made of alkali-silicate-soaked asbestos, characterized in that the flexible insulation, which is expediently composed of several layers, is weighted with alkali-silicate of an average of about 1 5 % of the asbestos weight. 2. Electrical Low-voltage cable according to Claim i, characterized in that in the case of several layers the closest to the conductor with an inorganic, electrically non-conductive one Substance containing the alkali silicate, e.g. B. sodium silicate, is able to precipitate, e.g. B. Sodium borate, or boric acid solution, is soaked, while the farther out Asbestos layers with alkali silicate, if necessary in varying amounts per unit weight, are soaked.