RU148021U1 - SYMMETRIC FIRE RESISTANT CABLE - Google Patents

Abstract

1. Symmetric fire-resistant cable containing sequentially arranged: a core comprising at least one symmetrical pair of conductive conductors insulated with fire-resistant silicone rubber, twisted with a polyimide film having an S-shaped configuration in cross section and covering each of the insulated conductors, fastening them between each other, a screen containing a laminated aluminum foil, a contact conductor and a sheath made of a flame retardant polymer material, characterized in that between the core and the shield are belt insulation made of a flame retardant polymer composition, the shield is double-layered, the first layer is made of laminated aluminum foil overlaid with a metal layer, the second is braided with tinned copper wires, and the contact conductor is located between the foil and the braid. 2 . Symmetric fire-resistant cable according to claim 1, characterized in that the conductive conductors are multi-wire. 3. Symmetric fire-resistant cable according to claim 1, characterized in that polypropylene film fibrillated filaments are laid on top of the polyimide film, on which a glass-mica tape is applied spirally with overlapping edges. 4. Symmetric fire-resistant cable according to claim 1, characterized in that the sheath is made of PVC compound. 5. Symmetric fire resistant cable according to pp. 1-4, characterized in that the armor in the form of a braid of galvanized steel wires is applied over the shell. 6. Symmetric fire-resistant cable according to claim 5, characterized in that a protective hose is applied over the armor. 7. Symmetrical fire resistant cable

Description

The utility model relates to cable technology, in particular to symmetrical fire-resistant cables for transmitting analog and digital signals.

The closest analogue for the claimed utility model includes a symmetrical fire-resistant cable containing sequentially arranged: a core comprising at least one symmetrical pair of conductive conductors insulated with flame-retardant silicone rubber, twisted using a polyimide film having an S-shape in cross section, covering each of the insulated conductors and fastening them together, a screen containing laminated aluminum foil is located on top of the core, ktny conductor and a sheath of flame retardant polymeric material (RU 2370839, 20.10.2009) [1]. The design of the known cable has disadvantages. In particular, the location of the screen directly on the core leads to increased attenuation of the signal, and the absence of a braid in the design of the screen does not provide high noise immunity of the cable from external electromagnetic fields.

The task to which the claimed utility model is aimed is to eliminate the disadvantages of the prototype, expand the field of use of the cable.

The technical result consists in increasing the operational characteristics of the cable by reducing the attenuation of the signal during data transmission through the cable, as well as increasing its noise immunity and resistance to mechanical stress.

The achievement of the technical result provides a symmetrical fire-resistant cable containing sequentially arranged: a core including at least one symmetric pair of conductive conductors insulated with fire-resistant silicone rubber, twisted using a polyimide film having an S-shaped cross section, covering each of the insulated conductors and fastening them together, a screen containing laminated aluminum foil and a contact conductor, as well as a shell made of burning polymer material, while between the core and the screen there is a belt insulation of a non-flame-retardant halogen-free polymer composition, the screen is double-layered, the first layer made of laminated aluminum foil overlaid with a metal layer, the second layer made of braided tinned copper wires, and the contact the conductor is located between the foil and the braid.

The claimed utility model includes particular cases of its implementation or use according to which;

Symmetric fire-resistant cable, characterized in that its conductive wires are multi-wire.

Symmetric fire-resistant cable, characterized in that polypropylene film fibrillated filaments are laid on a pair of twisted conductive wires on top of the polyimide film, which increase the distance between the twisted pair and the shield, thereby ensuring a decrease in the relative dielectric constant of the medium between the pair and the shield, which, together, provides decrease in signal attenuation coefficient.

As an embodiment of a fire-resistant cable, fiberglass tape can be superimposed on fibrillated filaments, spirally, with overlapping edges, which provides reinforcement and increased resistance to destruction of silicone rubber insulation under thermal stress in conjunction with repeated mechanical shock.

Symmetric fire-resistant cable, characterized in that the sheath is made of PVC compound of reduced fire hazard, providing increased fire safety.

Symmetric fire-resistant cable is characterized by the fact that armor in the form of a braid made of galvanized steel wires is imposed on the sheath, providing resistance to mechanical stress and protection from rodents.

Symmetric fire-resistant cable, characterized in that a protective hose is applied over the armor, which is made of a halogen-free flame-retardant composition or low-risk PVC compound, which protects the armor of the cable from external influences of aggressive environments.

Symmetric fire-resistant cable, characterized in that a layer of water-blocking material is applied between the sheath and the armor, which provides protection against the spread of moisture along the cable in case of damage to the hose when operating the cable in high humidity conditions.

The utility model is illustrated by drawings.

In FIG. 1 is a cross-sectional view of a cable.

In FIG. 2 is a longitudinal section view of a cable.

In FIG. 3 is a cross-sectional view of a cable with fiberglass tape.

In FIG. 4 is a view of a longitudinal section of a cable with fiberglass tape.

Symmetric fire-resistant cable contains a core, including multi-wire conductive conductors of twisted copper wires 1, insulation made of flame-retardant silicone rubber 2, deposited on top of conductive conductors and a polyimide film 3 having a cross-section S-shaped configuration and covering each of the insulated conductors, fastening them between by myself. The core is enclosed in a belt insulation 4 of a flame retardant halogen-free polymer composition. Insulation 4 is superimposed on a screen 5, consisting of a laminated aluminum foil and a braid of tinned copper wires imposed on it, as well as a conductor made of round tinned copper twisted wires between the foil and braid. The screen 5 is coated with a flame retardant polymer material 6, for example, low fire hazard PVC with low smoke and gas emission. In particular cases of the utility model execution, an armor 7 in the form of a braid of galvanized steel wires is applied over the sheath 6. The armor 7 can be located under the protective hose 8, made of a halogen-free polymer composition or low fire hazard PVC with low smoke and gas emission.

As an option to use a symmetrical fire-resistant cable, overlaying polyimide film 3 is applied in the form of polypropylene film fibrillated filaments 10, on top of which, in parallel with the overlapping edges, glass-cored tape is applied 9. When operating the cable in high humidity conditions, for example, on ships, oil platforms, between the sheath and a layer of water-blocking material (for example, cordels of water-blocking threads or water-blocking tape) (not shown) is applied by armor.

The cable manufacturing technology according to the claimed utility model includes the following operations.

Stranded conductive wires 1 are twisted from round copper wires. On each conductive core 1, insulation 2 is made of flame-retardant silicone rubber in the form of a continuous concentric layer, by extrusion, combined with the vulcanization process on continuous vulcanization cable lines. The twisting of insulated cores 1 in a pair is carried out together with a polyimide film 3 on a twisting machine. According to one embodiment of the utility model, polypropylene film fibrillated filaments 10 are applied to a pair of twisted conductive conductors over a polyimide film. According to one embodiment of a utility model, glass microfibre tape 9 is applied on top of each pair of twisted insulated conductors on a winding machine with an edge overlap of at least 15%. On top of the pair (a bundle of twisted pairs), a belt insulation 4 of a halogen-free polymer composition (for example, a thermoplastic halogen-free non-combustible compound) is applied to the extrusion line. On top of the belt insulation 4, a two-layer screen 5 is made of laminated aluminum foil, overlaid with a metal layer and braided with tinned copper wires, while a contact conductor is located between the foil and the braid. The contact conductor is made of tinned copper wires. On top of the screen 5 on the extrusion line, a sheath 6 is made of a halogen-free polymer composition or a low fire hazard PVC with low smoke and gas emission. In the particular case of the utility model, a protective element (armor) is applied over the sheath 6, in the form of a braid of steel galvanized wires 7. The braid 7 is applied uniformly on braiding machines with a surface density coefficient of at least 70%. Between the sheath 6 and the armor 7, in the particular case of the cable, lay a layer of water-blocking material (for example, cordels of water-blocking threads or water-blocking tape) (not shown). A protective hose 8 is made on top of the braid 7 on the extrusion line and is made of a halogen-free polymer composition (for example, a fire hazard thermoplastic halogen-free compound or low-emission polyvinyl chloride plastic compound) with low smoke and gas emission).

The diameter of the cable conductors is from 0.78 mm to 2.00 mm. Conducting conductors insulated with flame-retardant silicone rubber are twisted in pairs with a polyimide film. The cable core contains from 1 to 10 pairs of insulated conductive cores. Diameter for insulation from 2.18 mm to 3.80 mm. On top of each pair twisted with a polyimide film is a glass-mica tape. On top of the core, belt insulation is applied from a halogen-free polymer composition. The screen is made of laminated aluminum foil with a metal layer outward with overlapping edges of at least 15%. A contact conductor is laid over the laminated aluminum foil and a braid of tinned copper wires with a surface density coefficient of at least 60% is applied. The cable sheath is made of a polymer composition that does not propagate halogen-free combustion. The armor is applied over the cable sheath in the form of a braid of steel galvanized round wires with a surface density coefficient of at least 70%. Over the armor is a protective hose made of a halogen-free polymer composition.

Literature

[1] av. St. 2370839, H01B 11/02, H01B 7/295, Bull. No. 29, 2009, LLC NPP "Spetskabel".

Claims (9)

1. Symmetric fire-resistant cable containing sequentially arranged: a core comprising at least one symmetrical pair of conductive conductors insulated with fire-resistant silicone rubber, twisted with a polyimide film having an S-shaped configuration in cross section and covering each of the insulated conductors, fastening them between each other, a screen containing a laminated aluminum foil, a contact conductor and a sheath made of a flame retardant polymer material, characterized in that between The core and the shield are belt insulation made of a flame retardant polymer composition, the shield is double-layered, the first layer is made of laminated aluminum foil overlaid with a metal layer, the second is braided with tinned copper wires, and the contact conductor is located between the foil and the braid. 2. Symmetric fire-resistant cable according to claim 1, characterized in that the conductive conductors are multi-wire. 3. Symmetric fire-resistant cable according to claim 1, characterized in that polypropylene film fibrillated filaments are laid on top of the polyimide film, on which a glass-mica tape is applied spirally with overlapping edges. 4. The symmetric fire-resistant cable according to claim 1, characterized in that the sheath is made of polyvinyl chloride plastic compound. 5. Symmetric fire resistant cable according to paragraphs. 1-4, characterized in that on top of the shell armor is applied in the form of a braid of galvanized steel wires. 6. Symmetric fire-resistant cable according to claim 5, characterized in that a protective hose is applied over the armor. 7. Symmetric fire resistant cable according to paragraphs. 1-4, characterized in that the shell is superimposed a layer of water blocking material, on top of which the armor is applied. 8. The symmetric fire-resistant cable according to claim 6, characterized in that the protective hose is made of a halogen-free flame retardant composition. 9. The symmetric fire-resistant cable according to claim 6, characterized in that the protective hose is made of PVC compound.

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