RU153066U1 - FLEXIBLE CABLE FOR MOBILE MECHANISMS - Google Patents

Abstract

1. An electric cable containing six rubber insulated main conductors, one rubber insulated earth conductor, twelve rubber insulated auxiliary conductors, a separation layer overlaid on twisted conductors and a sheath of rubber, characterized in that the earth conductor is located in the center of the cable, around it the main veins are twisted, and in each of the six main veins formed by twisting, the inter-core space contains a group of two auxiliary veins. 2. A cable according to claim 1, characterized in that an additional synthetic film is additionally applied to the conductive core under insulation. The cable according to claim 1, characterized in that the separation layer is made of a synthetic film or a non-woven fabric or thermally bonded fabric. 4. Cable according to any one of paragraphs. 1-3, characterized in that the shell is made of cold-resistant rubber with a temperature of frost resistance not higher than minus 50 ° C. 4. Cable according to any one of paragraphs. 1-4, characterized in that the two insulated auxiliary conductors in each group are pre-twisted together.

Description

The utility model relates to cable technology, namely, to the design of flexible cables designed to connect mobile mechanisms to electric networks for a rated alternating voltage of 380 V frequency up to 400 Hz or a constant rated voltage of 660 V, as well as a rated alternating voltage of 660 V of a frequency of 400 Hz or a constant rated voltage of 1000 V.

A KG flexible cable is known, which contains three main conductive conductors and one ground conductor, while the conductive conductors are insulated with RTI-1 rubber and twisted together, a sheath of RSN-1 rubber is applied over twisted conductors (“Electrical cables, wires and cords . ”Handbook. N.I. Belorussov, A.E. Sahakyan, A.I. Yakovleva, 5th ed., 1987).

The signs of the known cable, which coincides with the features of the claimed utility model, consist in the implementation of a flexible cable containing the main conductors coated with insulation from rubber of the RTI-1 type, containing one earth conductor coated with insulation from rubber of the RTI-1 type, and also containing a sheath of rubber.

The closest analogue (prototype) is a flexible cable containing six main conductive cores, one grounding conductor and twelve auxiliary cores, each core is insulated with rubber, insulated wires are twisted, a rubber sheath is applied over the twist (GOST 24334-80, put into effect 01/01/82).

The outer core of this cable contains a yellow-green and blue core (paragraph 2.2.4a of GOST 24334-80), while the yellow-green color has a grounding conductor, so the grounding conductor is located in the outer coiling. The disadvantage of this cable is that the six main conductive wires are located in the inner coil and twisted around the core, and the auxiliary wires and ground conductor are located in the outer coil.

Signs of a known cable that match the features of the claimed utility model are six main conductive cores, each of which is insulated with rubber, one grounding conductor, insulated with rubber, twelve auxiliary cores, each of which is insulated with rubber and a rubber sheath .

The reason that prevents the obtaining of a technical result, which is provided by the claimed utility model, is the location of the grounding conductor in the outer coil of the cable, as well as the location in the center of the cable core.

The problem the utility model aims to solve is to reduce the diameter of the twisted cores, and as a result, reduce the consumption of rubber on the cable sheath, as well as reduce the consumption of rubber for the manufacture of the cable core by eliminating the core from the structure.

The technical result is achieved in the claimed utility model by the fact that the core is excluded in the cable, six main conductive cores coated with rubber insulation are twisted around the rubber insulated ground conductors, and the auxiliary conductors are twisted into groups of two and are located in the interfacial spaces formed during twisting.

Signs of the claimed utility model, distinctive from the prototype, are the lack of a core and the location of the grounding conductor in the center of the cable.

Figure 1 schematically shows a flexible cable for mobile mechanisms. The cable contains six main conductive conductors 1, one grounding conductor 2 located in the center, twelve auxiliary conductors 3 located in the inter-core spaces formed by twisting the main conductors. Each core is covered with rubber insulation 4. On top of the twisted cores there is a separation layer 5. On top of the separation layer is a shell of rubber 6.

Conductors made of copper or tinned copper, not less than 5 class of flexibility. A synthetic film may be applied over the conductive core. The insulation of conductive conductors is made of rubber type RTI-1. The separation layer is made of a synthetic film or of a nonwoven fabric, or of thermally bonded fabric. The shell is made of rubber type RShT-2 or type RTTT-1-HL, or RShTM-2-HL.

Conductors are made using twisting equipment typical of the cable industry, copper wires are twisted into strands, then strands are twisted into strands. Vein twisting is also possible. On extrusion equipment, a synthetic film can be applied over a twisted conductive core, and rubber insulation is applied over a synthetic film or twisted core on an extrusion equipment, followed by vulcanization. Insulated conductors are twisted on twisting equipment as follows: in the center there is a grounding conductor, main conductive conductors are twisted around it, and in the formed inter-core spaces there are groups of two auxiliary conductors, while two auxiliary conductors in a group can be pre-twisted on twisting equipment. Over the twisted cores, a separation layer is applied, made of a synthetic film or a thermally bonded fabric, or a non-woven fabric. On top of the separation layer on the extrusion equipment, a rubber sheath is applied followed by vulcanization.

Claims (5)

1. An electric cable containing six rubber insulated main conductors, one rubber insulated earth conductor, twelve rubber insulated auxiliary conductors, a separation layer overlaid on twisted conductors and a sheath of rubber, characterized in that the earth conductor is located in the center of the cable, around it the main veins are twisted, and in each of the six main veins formed by twisting, the inter-vein space contains a group of two auxiliary veins. 2. The cable according to claim 1, characterized in that a synthetic film is additionally applied to the conductive core under insulation. 3. The cable according to claim 1, characterized in that the separation layer is made of a synthetic film or a non-woven fabric or thermally bonded fabric. 4. Cable according to any one of paragraphs. 1-3, characterized in that the shell is made of cold-resistant rubber with a temperature of frost resistance not higher than minus 50 ° C. 4. Cable according to any one of paragraphs. 1-4, characterized in that the two insulated auxiliary conductors in each group are pre-twisted together.

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