RU205975U1 - FIRE SAFE CABLE WITH INCREASED FLEXIBILITY FOR MOBILE OPERATION IN COLD CLIMATE CONDITIONS - Google Patents

Abstract

The utility model relates to cable technology, namely to the structures of control cables intended for mobile operation in control circuits and measuring electrical and physical parameters, as well as to power cables intended for the transmission and distribution of electricity at oil and gas industry facilities, in drilling rigs in a cold arctic climate, including in explosive zones. The technical result consists in the implementation of the design of a fireproof cable with increased flexibility for mobile operation in cold climates. For this, a fireproof cable contains a sheath and conductive cores having a flexibility of at least 6th class, which are twisted into cores, insulated and located around the polymer filler, an inner sheath is applied over them, and the cores are also twisted together around the central filler. On top of the inner shell, a first separating layer, a metal shield and a second separating layer are sequentially applied. The shell is made of thermoplastic elastomer, and a layer of protective armor and a protective hose are sequentially applied over the shell. 4 c.p. f-ly, 1 dwg.

Description

The proposed utility model relates to cable technology, namely to the structures of control cables intended for mobile operation in control circuits and measuring electrical and physical parameters, as well as to power cables intended for the transmission and distribution of electricity at oil and gas facilities, in drilling installations in cold arctic climates, including hazardous areas.

The closest analogue of the claimed utility model is a control, installation and power cable for hazardous areas on floating installations and offshore stationary platforms, consisting of a core including at least one insulated copper or tin-plated copper stranded conductor and / or at least one group, twisted from several of the mentioned cores, at least one screen, and a moisture-proof sheath, in which the insulation of the said conductive cores is made of ethylene-propylene or organosilicon rubber, the air gaps in the core and these groups are filled with a polymer filler based on PVC compound, while the screen is made in the form of a braid made of copper wires, and the moisture-proof sheath is made of polychloroprene rubber or chlorosulfonated polyethylene, oil and oil resistant, resistant to sea water and sea fog, applied under pressure (see patent RU No. 81842 U1, Н01В 9/00, published 03/27/2009), on a scoop the ease of essential features adopted as a prototype of a utility model.

The known cable does not fully meet the requirements of consumers of the oil and gas industry for fireproof cables intended for operation in a cold Arctic climate, in particular, the cable resistance to dynamic bends at negative ambient temperatures up to minus 50 ° С and up to minus 70 ° С for fixed gasket.

The reason for the above disadvantages of the known cable is that the filling and the sheath are made of polymeric materials that do not provide the dynamic stability of the cable at negative ambient temperatures.

The technical problem, the solution of which is provided by the implementation of the utility model, consists in the design of a fire-safe cable with increased flexibility for mobile operation in control circuits, measurement of electrical and physical parameters, transmission and distribution of electricity at oil and gas industry facilities, in drilling rigs when exposed to oil products resistant to dynamic bending at ambient temperatures up to minus 50 ° С and up to minus 70 ° С for fixed laying.

The technical result provided by the utility model consists in solving the specified technical problem of making a fireproof cable with increased flexibility, intended for operation at low ambient temperatures down to minus 70 ° C.

The specified technical result is achieved by the fact that a fireproof flexible cable for mobile operation in cold climates contains conductive conductors, insulation made of ethylene-propylene rubber, and a sheath, while conductive conductors have a flexibility of at least class 6, are insulated and twisted around polymer fillers into cores, on top of which an inner sheath is imposed, filling the space between them and made of a thermoplastic elastomer with a reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below, while cores are made of insulated conductive conductors twisted around polymer fillers, are twisted together around the central filler, and on top of the inner shell the first separating layer, the metal screen and the second separating layer are sequentially applied, while on top of the shell a layer of protective armor and a protective hose made of thermoplastic are applied successively low fire hazardous elastomer with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below, based on polyvinyl chloride plasticate with introduced modifiers, stabilizers and halogen-free flame retardants, which ensure the mechanical resistance of the cable to bending up to minus 50 ° C and resistance to ambient temperature up to minus 70 ° С for fixed laying.

In the particular case of the implementation of the utility model, the conductive cores are made of copper or tinned copper wires.

In the particular case of the implementation of the utility model, the conductive cores are made of aluminum alloy wires.

In the particular case of the implementation of the utility model, the metal screen is made in the form of a braid of copper or tinned copper wires.

In the particular case of the implementation of the utility model, the layer of protective armor is made in the form of a braid of galvanized steel wires.

The technical result in the implementation of the claimed utility model is ensured by the fact that the cable has increased flexibility at low temperatures due to the use of conductive conductors of increased flexibility not lower than class 6 in accordance with GOST 22483-2012, as well as the implementation of the sheath and filling of the cable from polymer materials, providing dynamic resistance of the cable at low temperatures for mobile operation up to minus 50 ° С and ambient temperature up to minus 70 ° С for fixed laying.

The proposed utility model is illustrated by a specific example of implementation and illustrated by the drawing, which shows a cross-section of a fireproof cable with increased flexibility for mobile operation in cold climates.

A fireproof cable with increased flexibility for mobile operation in cold climates contains conductive conductors 1 with insulation 2 and a sheath 3. The conductive conductors are twisted around polymer fillers 4 into cores, on top of which an inner sheath 5 is applied.

Insulation 2 is made of ethylene-propylene rubber with a brittle temperature of minus 50 ° C and below.

The casing 3 is made resistant to mineral oil, gasoline, diesel fuel and drilling mud, while it is made of a thermoplastic elastomer with a reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below on the basis of PVC compound with introduced modifiers, stabilizers and halogen-free flame retardants, providing a combination of mechanical resistance of the cable to bends up to minus 50 ° С and resistance to ambient temperatures up to minus 70 ° С for fixed laying.

The inner sheath 5 fills the space between the conductors twisted into cores and ensures that combustible mixtures do not propagate along the cores. It is made of a thermoplastic elastomer with a reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below.

Cores made of insulated conductive conductors are twisted together around a central filler 6.

In the cable structure, on top of the inner sheath 5, a first separating layer 7, a metal shield 8 made in the form of a braid of tinned copper or copper wires, and a second separating layer 9 are sequentially applied.

Above the shell 3, a layer of protective armor 10, made in the form of a braid of galvanized steel wires, and a protective hose H, resistant to mineral oil, gasoline, diesel fuel and drilling mud, and made of a thermoplastic elastomer with a reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below on the basis of polyvinyl chloride plasticate with introduced modifiers, stabilizers and halogen-free flame retardants.

The technology for manufacturing a fireproof cable with increased flexibility for mobile operation in cold climates includes the following operations that confirm the industrial applicability of the claimed utility model.

The conductors are produced by methods known in the cable industry.

Insulation, inner sheathing, sheathing, protective hose are applied on extrusion lines.

Insulated conductive conductors are twisted around a filler made in the form of a bundle into a core on stranding machines.

Cores of insulated strands twisted around a core are twisted around a central core on stranding machines.

The first release layer and the second release layer are applied longitudinally or by winding on insulating or screening machines.

The metal screen is applied by braiding on a braiding machine.

Protective armor in the form of a braid of galvanized steel wires is applied to a braiding machine.

The design of the cable has been successfully tested in industrial production, while the implementation of the utility model was carried out using known production methods and technologies.

Claims (5)

1. Fireproof flexible cable for mobile operation in cold climates, containing conductive conductors, insulation made of ethylene-propylene rubber, and a sheath, characterized in that conductive conductors have a flexibility of at least class 6, are insulated and twisted around polymer fillers into cores , on top of which an inner sheath is applied, filling the space between the conductive conductors and made of a thermoplastic elastomer with a reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below, while the cores of insulated conductive conductors twisted around a polymer filler are twisted each other around the central filler, and on top of the inner shell the first separating layer, the metal screen and the second separating layer are sequentially superimposed, moreover, a layer of protective armor and a protective hose made of thermoplastic elastomer are applied on top of the shell in succession reduced fire hazard with an oxygen index of at least 32 and a brittleness temperature of minus 50 ° C and below on the basis of PVC compound with introduced modifiers, stabilizers and halogen-free flame retardants, which ensure the mechanical resistance of the cable to bends up to minus 50 ° C and resistance to ambient temperatures up to minus 70 ° C for fixed installation. 2. A cable according to claim 1, characterized in that the conductors are made of copper or tinned copper wires. 3. Cable according to claim 1, characterized in that the conductive cores are made of aluminum alloy wires. 4. The cable according to claim 1, characterized in that the metal shield is made in the form of a braid of copper or tinned copper wires. 5. Cable according to one of paragraphs. 1-4, characterized in that the layer of protective armor is made in the form of a braid of galvanized steel wires.

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