DE824961C - Flexible electrical cable - Google Patents

Description

Flexible Electrical Cable The invention relates to a flexible one electrical cable, which is an insulation made of a substance. like rubber. In particular The invention relates to a lead-sheathed cable for excavators, mines and similar harsh and explosive operations. For these purposes, the Usually so-called rubber hose cables are used. The cables are preferred for multi-core cables the current-carrying wires individually or together with electrically conductive protective layers, e.g. shields, provided as wire meshes or as semiconducting rubber layers Are trained. In the latter case, these contain conductive layers often wire inserts running lengthways to increase their longitudinal conductivity. The individual shielding and the common shielding of the wires can be combined be. Such cables are also known in which the current-carrying wires are embedded in a core consisting of electrical semiconductors rubber or over the veins a semiconducting rubber layer filling the outer interstices is arranged or the veins completely of such semiconducting rubber layers are surrounded, these layers still to increase their longitudinal conductivity longitudinally running wire inlays can contain.

Often the electrically conductive layers of these cables are used to Avoid harmful touch voltages being earthed, or they are in relay circuits switched that on failure either switch off the cable immediately or by an acoustic or visual sign of the presence of the error to draw attention. But it has been shown that the known types of such Cable is not yet completely satisfactory. The cables are often either too heavy and unwieldy, or they are too prone to failure. In particular, it happens that with Earth faults or short circuits between the phases, the cable through the in the The gases generated by the heat of the electric arc are torn open, leading to fires with serious consequences and cause explosions.

The invention consists essentially in that said protective layer or the protective layers, as an electrically conductive component, are a twisted metallic one Contain a length that is embedded in a material such as rubber. The metallic Insert can have the shape of a helix. As a further advantageous embodiment the metallic insert can be wound in a meander shape. Claimed in this version they, measured perpendicular to the layer, have particularly little space. In a borderline case the meander shape can be the metallic insert in the form of a flatter wavy line, roughly a sine line. Opposite the acquaintance she has with the cable according to the invention arranged protective layer the advantage that, for example, when Bending of the cable, due to the stretching of the protective layer, only the turns of the metallic insert are pulled apart without the metallic insert itself is stressed significantly on elongation.

The protective layer can have several of the metallic inserts described included side by side. The turns of the side by side grip advantageously arranged metallic inserts each a piece in one another, so that the surface is covered as coherently as possible by conductive inserts.

The metallic insert can consist of a wire or a metal thread be educated. A thin, fine-stranded strand is advantageously used, which is used for Increasing their flexibility is stranded with a short pitch, or the metallic Insert is formed from a metal thread wound around a textile thread as a carrier. Such a metallic insert is extremely flexible and pliable, and it can therefore no longer happen that they are caused by the constantly repeated bends of the cable is crushed. The insert has when using a fine-stranded As a result of the larger conductive cross section of the same, the strand also has a larger electrical Conductivity and mechanical strength. In the case of a textile thread as This is useful in open helical lines with a twisted metal thread carrier to the. Textile thread wound so that the successive screw turns of the metal thread when compressing the insert, chafe less easily against the edges can.

As a rubberized embedding compound, z. B. polymerized Chlorobutadiene can be used, which has the special property that it is against Resistant to fats, oils and ozone.

, The metallic insert can be woven into a textile fabric, which in turn is embedded in a mass such as rubber. So that this mass through the textile fabric binds well through it, the textile fabric is expediently sufficiently wide-meshed woven so that the embedding material penetrates better between the tissue threads can.

To further increase the electrical conductivity of the protective layer, can be the embedding compound by adding conductive materials such as carbon black, graphite or Metal powder "must be made electrically semiconducting.

The protective layers can be used with the adjacent layers of the cable form an inseparable unit. But it can also be advantageous to use the protective layers to be arranged displaceably in relation to the neighboring layers .. This is limited a shift to the interfaces that occurs approximately when the cable is bent the protective layer, so that this itself is largely protected mechanically.

In a multi-conductor power cable according to the invention, the current-carrying Cores are advantageously stranded over an approximately cross-shaped web, which acts as a protective layer is formed with metallic inserts of the type described. This electric Conductive core can be switched into a relay circuit that prevents the cable from flashing over switches off between the live wires before the inside of the cable is destroyed reaches too far.

The live conductors of the conductor high-voltage cable can be according to a weiterertn proposal of the invention below, with the common insulating sleeve be wrapped on a textile tape in such a way that between the current-carrying Veins located in the gussets, longitudinal channels remain. These longitudinal channels offer at Short circuits within the cable for the gases created inside the cable The possibility of expansion, which prevents the cable from tearing open and the Break through flames to the outside. The textile tape is advantageous as a protective layer designed in accordance with the invention. can therefore for example with a meandering winding provided with metallic inserts and covered with electrically semiconducting rubber or the like. like. be saturated.

In the gussets between the veins that carry the stroin Line wires can be used to increase the longitudinal conductivity of the adjacent protective layers be arranged, which to reduce the metallic friction with a flexible, electrically semiconducting material, such as semiconducting rubber, provided with existing sheath could be. Likewise, insulated in the gusset as well as in the core of the cable Control cores be embedded. The insulated ones inserted into the core of the cable Control cores can advantageously also meander-shaped to increase the ductility be tortuous.

The drawing shows, for example, in FIGS and 2 shows an embodiment of a lead-sheathed multi-conductor power cable according to FIG Invention, namely in Fig. I in a view, in Fig. 2 in cross section. To the It is easy to see the structure better. i separate the individual parts and: shown partially cut open. 3 and 4 show two embodiments the metallic inserts used.

In Fig. T and 2, i denotes the conductors of the current-carrying cores and 2 -the core insulation. On the insulation 2 there is in each case an electrically conductive one Protective layer 3 arranged, the meandering metallic inserts] 4 embedded in a substance such as rubber, which is electrically semiconducting due to the addition of carbon black is made. In the case of one of the live wires, the protective layer 3 is made of tape Shown helically wound around the core insulation. The live Veins are saponified around the core 5, which has the shape of a Maltese cross in cross section Has. In addition to the meandering wound metallic inserts, the core 5 contains 4 and the helically wound metallic inserts 6 an insulated control wire 7, which is also wound in a meandering shape in: the core 5 is inserted. The embedding compound of the core 5 consists of polymerized chlorobutaldiene, which is electrically generated by the addition of carbon black is made semiconducting. Common to the live wires is through the Meandering wound metallic inlays. 4 electrically conductive textile tape 8 wrapped tightly. In the resulting current-carrying in the gussets between Aden L <iugskanäle 9 formed by wires are those made electrically semiconducting with Chlorobutadiene io sheathed longitudinal wires i i and other insulated control cores 12 housed. Above the textile band 8 are those for all current-carrying Cores common insulating layer 13, another electrically conductive protective layer 14 and the insulating jacket layer 15 as an external termination. The protective layer 14 can be used in a relay circuit to trigger a warning sign., that draws attention to an error that starts from the outside in good time.

The metallic insert of the protective layers described is in accordance with 3 from three single wires 16 saponified with a short lay length and according to FIG. 4 made of a metal thread wound around the textile thread 17 in an open helical line 18 formed.

Claims (7)

PATENT CLAIMS: i. Flexible electrical cable with insulation made of a material such as rubber and one or more arranged in the insulation electrically conductive protective layers, in particular lead-free cables for rough and potentially explosive establishments, characterized in that these protective layers .contain a coiled metallic insert as an electrically conductive component, which is embedded in a material such as rubber. 2. Cable according to claim i, characterized characterized in that the metallic insert has the shape of a helix. 3. Cable according to claim i, characterized in that the metallic insert is meandering is tortuous. 4. Cable according to claim 2 or 3, characterized in that the metallic Inlay formed from a fine-stranded strand saponified with a short lay length will. 5. Cable according to claim 2 or 3 "characterized in that the metallic Insert is formed from a metal thread wound around a textile tape as a carrier. 6. Cable according to one of claims 2 to 5, characterized in "that the protective layer contains several metallic inlays next to each other. 7. Cable according to claim 6, characterized in that the turns of the juxtaposed metallic inserts each interlock a piece. B. Cable according to one of the preceding claims, characterized in that the metallic inserts in a textile fabric; that is embedded in a fabric such as rubber. G. Cable according to one of the preceding claims, characterized in that the embedding compound consists of polymerized chlorobutadiene. Cable according to one or the preceding claims, characterized in that the embedding compound is made electrically semiconducting by adding conductive substances such as carbon black, graphite or metal powder i i. Cable according to one of the preceding claims, characterized in that the protective layers are displaceable with respect to the neighboring layers of the cable .. 12. Multi-conductor high-voltage cable according to Claim i, characterized in that the current-carrying core is over a cross-section approximately cross-shaped web are saponified which is designed as a protective layer according to one of claims i to ii. 13. Multi-conductor high-voltage cable according to claim 12, characterized in that one or more meandering insulated control cores are embedded in the web. 14. Multi-conductor high-voltage cable according to claim 12 or 13, characterized marked et that the current-carrying wires are wrapped below the common insulating sleeve with a textile tape in such a way that longitudinal channels remain in the gussets located between the current-carrying wires. 15. Multi-conductor high-voltage cable according to claim 14, characterized in that the textile tape is designed as a protective layer according to one of claims i to ii. 16. Multi-conductor high-voltage cable according to one of claims 12 to 15, characterized in that length wires and / or insulated control cores are arranged in the gussets located between the current-carrying cores. 17. Multi-conductor high-voltage cable according to claim 16, characterized in that the longitudinal wires are seen with a sheath consisting of a flexible, eI A -trically semiconducting material, such as semiconducting rubber. 18. Me'hrleiterstarkstromkabel according to one of claims 15 to 17, characterized in that under the insulating jacket and concentrically. to this a further electrically conductive protective layer according to one of claims i to ii is arranged.