RU112489U1 - FLEXIBLE MOUNTING CABLE OF INCREASED INTERFERENCE PROTECTION (OPTIONS) - Google Patents

Abstract

1. Flexible mounting cable of increased noise immunity, containing an external protective polymer sheath and multiwire conductive conductors located inside it, covered with polymer insulation and twisted into pairs or triplets, which, in turn, are twisted into a core, characterized in that a water-blocking bandage is applied over the core of circular cross-section made of elastic polymer material and covered with a combined screen including polyester electrically conductive material with a volumetric electrical resistance of at least 400 Ohm / m3. ! 2. The cable according to claim 1, characterized in that the combined screen is made in the form of a tape winding of said electrically conductive material and braid or winding with copper or tinned copper wire. ! 3. The cable according to claim 1, characterized in that the combined shield is made in the form of a tape wrapped from said electrically conductive material and a metallized polymer tape wrapped. ! 4. The cable according to claim 1, characterized in that the combined screen is made in the form of a tape winding made of said electrically conductive material, a metallized polymer tape winding and a braid or a copper or tin-plated copper wire winding. ! 5. Cable according to any one of claims 1 to 4, characterized in that between the combined screen and the outer protective sheath is an inner sheath made of polymer material, covered with armor. ! 6. A cable according to any one of claims 1 to 4, characterized in that the pairs or triples of conductive conductors twisted together are equipped with screens made of copper or tinned copper wire. ! 7. Installation cable flexible with increased noise immunity, containing external protective

Description

The utility model relates to electrical equipment, namely, to mounting cables intended for inter-device installation of electrical devices, including for mobile mechanisms. The proposed cables can be laid in rooms, channels, tunnels, land (trenches), in the open air, etc., during operation, bends are allowed for a diameter of at least 6 design diameters of the cable.

A known mounting cable is flexible, containing an external protective polymer sheath and multiwire conductive wires located inside it, coated with polymer insulation and twisted into pairs or triples, which, in turn, are twisted into a core (see patent RU 105523, class H01B 7 / 295, publ. 06/10/2011). A disadvantage of the known device is the relatively high sensitivity of the transmitted signal to external electromagnetic fields.

The objective of the utility model is to eliminate this drawback. The technical result is to increase the noise immunity of the cable.

According to the first embodiment of the device, the task is solved, and the technical result is achieved by the fact that the mounting cable of increased noise immunity contains an external protective polymer sheath and multi-wire conductive wires located inside it, coated with polymer insulation and twisted into pairs or triples, which, in turn, twisted into a core, a water-blocking bandage of circular cross-section, made by extrusion of elastic polymer material, is applied over the core and a coated combined screen comprising polyester electrically conductive material with volume resistivity not less than 400 ohm / m ^3. The combined screen can be made in the form of a tape winding of the specified electrically conductive material and a braid or winding with copper or tinned copper wire. The combined screen can be made in the form of a winding tape of the specified electrically conductive material and winding a metallized polymer tape. The combined screen can be made in the form of a winding tape of the specified electrically conductive material, a winding metallized polymer tape and braid or winding with copper or tinned copper wire. Between the combination shield and the outer protective sheath, an inner shell of polymer material coated with armor is preferably located. It is advisable to provide twisted pairs or triples of insulated conductive wires with shields of tinned copper or copper wire.

According to the second embodiment of the device, the task is solved, and the technical result is achieved by the fact that the mounting cable of increased noise immunity contains an external protective polymer sheath and multi-wire conductive wires located inside it, coated with polymer insulation and twisted into a core, a water-blocking bandage of circular cross section is applied over the core made by extrusion of an elastic polymer material and coated with a combination screen including electrically conductive polyester material with a volumetric electrical resistance of at least 400 Ohm / m3. The cable preferably contains at least 14 insulated conductive cores. The combined screen can be made in the form of a winding tape from the specified electrically conductive material and a braid or winding with copper or tinned copper wire. The combined screen can be made in the form of a winding tape of the specified electrically conductive material and winding a metallized polymer tape. The combined screen can be made in the form of a winding tape from the specified electrically conductive material, a winding metallized polymer tape and braid or winding with copper or tinned copper wire. Between the combination shield and the outer protective sheath, an inner shell of polymer material coated with armor is preferably located. It is advisable to provide insulated conductive conductors with shields of tinned copper or copper wire.

Figure 1 presents a diagram of the cable mounting flexible increased noise immunity according to the first embodiment with a combined screen with an electrically conductive layer made in the form of a winding;

figure 2 - diagram of the cable according to the first embodiment with an inner shell and armor;

figure 3 is a diagram of a cable according to the first embodiment with shielded pairs or triples of conductive conductors;

figure 4 is a cable diagram according to the first embodiment with shielded pairs or triples of conductive cores and a combined screen with an electrically conductive layer made in the form of a winding;

5 is a diagram of a cable according to the first embodiment with shielded pairs or triples of conductive conductors, an inner sheath and armor;

Fig.6 is a diagram of a cable according to the first embodiment with shielded pairs or triples of conductive conductors, a combined screen with an electrically conductive layer made in the form of a winding, an inner shell and armor;

figure 7 presents a diagram of the cable mounting flexible increased noise immunity according to the second embodiment;

on Fig is a diagram of a cable according to the second embodiment with an inner shell and armor;

Fig.9 is a diagram of a cable according to the second embodiment with shielded conductive cores;

figure 10 is a diagram of a cable according to the second embodiment with shielded conductive cores and a combined screen with an electrically conductive layer made in the form of a winding;

11 is a diagram of a cable according to the second embodiment with shielded conductive conductors, with an inner sheath and armor;

on Fig - cable diagram according to the second embodiment with shielded conductive cores, a combined screen with an electrically conductive layer made in the form of a winding, an inner sheath and armor.

The proposed installation cable for increased noise immunity consists of multi-wire flexible copper or tinned copper conductive conductors 1 coated with polymer insulation 2. Insulation 2 can be made of polyvinyl chloride plastic compound (for example, cold-resistant with an operating temperature of minus 60 ° C or low fire hazard with an oxygen index not less than K _and = 30); a halogen-free polymer composition; crosslinked polyolefin; or thermoplastic elastomer (including oil and petrol resistant and resistant to elevated operating temperatures up to 125 ° C).

According to the first embodiment (Figs. 1-6), cores 1 with insulation 2 are twisted in pairs or in triples, which differ in color and, in turn, are twisted into a core. According to the second option (Fig.7-12), the cable contains at least 14 independent cores 1 with insulation 2, also twisted into one core. Twisted together pairs or triples of conductive insulated conductors (Fig.3-6) or independent conductive insulated conductors (Fig.9-12) can be equipped with screens 3 of copper or tinned tinned wire.

A water blocking bandage 4 (extruder aggregate) of elastic polymer material is applied over the core, giving the cable a circular cross-section. The bandage 4 is covered with a combined screen, including the winding 5, with a tape of polyester electrically conductive material with a volumetric electrical resistance of at least 400 Ohm / m ³ . The specified combined screen can significantly reduce the interference induced in the conductive conductors 1 by external electromagnetic sources (effective shielding manifests itself with a volumetric electrical resistance of 400 Ohm / m ³ or more). The screen may also contain a winding 6 with a metallized polymer tape (Fig. 1, 2, 7, 8) and / or a braid or winding 7 with copper or tinned copper wire (Fig. 4, 6, 10, 12).

Outside, the cable is covered with an external protective polymer sheath 8 made of polyvinyl chloride plastic compound (for example, cold-resistant to working temperature minus 60 ° C, low flammability with an oxygen index of at least K _and = 30, including cold-resistant or reduced fire hazard), polymer composition, halogen-free, cross-linked polyolefin or thermoplastic elastomer (including oil-resistant and resistant to elevated operating temperatures up to 125 ° C).

To increase the strength when laying the cable in explosive areas between the combined shield and the outer protective shell 8, an inner shell 9 of polymer material coated with armor 10 can be additionally located (Figs. 2, 5, 6, 8, 11, 12).

The proposed cables are highly resistant to repeated bending, providing the possibility of their use in mobile mechanisms; resistance to the longitudinal distribution of moisture, providing the possibility of their use in conditions of 100% humidity; and most importantly - high noise immunity (electromagnetic compatibility).

Claims (13)

1. A flexible mounting cable of increased noise immunity, containing an external protective polymer sheath and multi-wire conductive wires located inside it, coated with polymer insulation and twisted into pairs or triples, which, in turn, are twisted into a core, characterized in that a water-blocking bandage is applied over the core circular cross-section made of flexible polymeric material and coated with a combination screen comprising a polyester electrically conductive material with volumetric electrical resistance a phenomenon of at least 400 Ohm / m ³ . 2. The cable according to claim 1, characterized in that the combined screen is made in the form of a winding tape from the specified electrically conductive material and the braid or winding with copper or tinned copper wire. 3. The cable according to claim 1, characterized in that the combined screen is made in the form of a winding tape of the specified electrically conductive material and winding a metallized polymer tape. 4. The cable according to claim 1, characterized in that the combined shield is made in the form of a winding tape from the specified electrically conductive material, a winding with a metallized polymer tape and a braid or winding with copper or tinned copper wire. 5. Cable according to any one of claims 1 to 4, characterized in that between the combined screen and the outer protective sheath is an inner sheath of polymeric material coated with armor. 6. The cable according to any one of claims 1 to 4, characterized in that the pairs or triples of conductive wires twisted together are provided with screens of tinned copper or copper tinned wire. 7. A flexible mounting cable with increased noise immunity, containing an external protective polymer sheath and multi-wire conductive wires located inside it, coated with polymer insulation and twisted into a core, characterized in that a round block cross-sectional bandage made of elastic polymer material and coated with a combined screen is applied over the core, including polyester electrically conductive material with a volumetric electrical resistance of at least 400 Ohm / m ³ . 8. The cable according to claim 7, characterized in that it contains at least 14 conductive cores. 9. The cable according to claim 7, characterized in that the combined screen is made in the form of a winding tape of the specified electrically conductive material and the braid or winding copper or tinned copper wire. 10. The cable according to claim 7, characterized in that the combined screen is made in the form of a winding tape of the specified electrically conductive material and winding a metallized polymer tape. 11. The cable according to claim 7, characterized in that the combined screen is made in the form of a winding tape of the specified electrically conductive material, winding a metallized polymer tape and braiding or wrapping with copper or tinned copper wire. 12. Cable according to any one of paragraphs.7-11, characterized in that the conductive cores are equipped with shields of tinned copper or copper tinned wire. 13. Cable according to any one of paragraphs.7-11, characterized in that between the combined screen and the outer protective sheath is an inner sheath of polymeric material coated with armor.