UA8296U - Ship power cable for explosive environment ?? ?? ?? ?? - Google Patents

Abstract

The proposed ship power cable for explosive environment contains several copper conductors with ethylene-propylene rubber insulation, a reinforcing sheath for the core, an inside protective sheath, an outside protective sheath, and a metallic armor, which is arranged between the inside and outside protective sheaths. The reinforcing sheath is made of polyethylene terephtalate film. The inside and outside protective sheaths are made of nonhalogenated cross-linked polymer, which is applied by extrusion, or incombustible polyvinylchloride material. The armor is made of galvanized steel wire applied with density of 80 % or more. Each conductor of the cable is wound around an insulating cord having circular cross-section.

Description

Description of the invention

The useful model refers to the field of electrical engineering, namely, to the constructions of ship power cables, 2 intended for fixed laying in explosive rooms and spaces on ships of the sea and river fleet, for operation in power and lighting installations, as well as in control circuits at a voltage of up to 0 ,6/1.0kV alternating current with a frequency of 50 Hz.

The prototype is a ship's cable for explosive environments, containing two or more current-conducting cores with rubber insulation of the RTI-1 type. A 70 polyethylene terephthalate film or rubberized fabric is placed on top of each insulated core. Insulated cores are twisted (with a cross section of 10 mm2 and above) around a profiled core made of polyvinyl chloride plastic. An inner shell, an armor of two galvanized steel strips and an outer shell are successively placed on top of the twisted cores with filling.

The sheaths are made of polyvinyl chloride plastic (Ship cables for explosive atmospheres).

Technical conditions TU 16-505.405-78). t Disadvantages of the specified cable are low operating temperature (no more than 702С), large diameter and mass, low fire safety.

The task of a valid useful model is to create such a design of a power ship cable for explosive environments, in which, due to the introduction of new elements and the use of new materials, the working temperature would be increased to 852C and the fire safety of the cable would be increased.

The task is achieved by the fact that in the power ship cable for explosive environments, which contains two or more current-conducting cores with rubber insulation, twisted into a core, a fastening element, an armor located between the inner and outer plastic shells, according to the useful model, each the core is made of flexibility class 2 with insulation from ethylene propylene rubber, the fastening element is made of polyethylene terephthalate film, and the inner and outer sheaths are made of extruded cross-linked halogen-free composition or non-flammable polyvinyl chloride plastic. -

The advantage of the proposed cable is that the use of ethylene propylene rubber insulation significantly increases the heat resistance of the cable up to 852C, increases the current load. The inner and outer sheaths, made of extruded cross-linked halogen-free composition or non-flammable polyvinyl chloride plastic, provide oil resistance, resistance to rays, and also ensure high fire safety of the cable, because it does not spread flames, does not emit corrosively active gases, and has low smoke emission during a fire. b"

Replacing the profiled core from polyvinyl chloride plastic (in the prototype) with a round rubber one, as well as eliminating the Mylar film winding on each insulated core, reduce the diameter and weight of the cable.

The armor can be made in the form of braiding from galvanized steel wires with a density of at least 8095, which

C5 allows you to increase the flexibility of the cable.

The cable can additionally contain a round core made of rubber, which allows to increase the operational reliability of the cable. "

The cable can additionally contain a fastening element on top of the current-conducting core, armor, which improves the separation of the cable and increases its flexibility. at)

The proposed useful model is schematically shown in the figure, where 1 is a conductive core, 2 is an element that fastens c, C is rubber insulation, 4 is a rubber cord, 5 is an inner plastic shell, b is armor, 7 is an outer plastic shell. c The ship's power cable for explosive environments contains two or more conductive cores 1 with rubber insulation C, twisted into a core, an element 2 that fastens, armor 6, located between the inner plastic sheath 5 and the outer plastic sheath 7. Each core 1 is made 2 flexibility class with C insulation made of ethylene propylene rubber, the fastening element 2 is made of polyethylene terephthalate film, and the inner 5 and outer 7 shells are made of extruded cross-linked halogen-free composition or non-flammable polyvinyl chloride plastic. o Example

The cable contains three current-conducting cores 1 made according to the 2nd class of flexibility with a cross-section of 5Ω?, each of which is covered with an element 2 that binds from a polyethylene terephthalate film in the form of a winding with an overlap and insulation from ethylene propylene rubber, superimposed on the line of continuous vulcanization. The insulated cores 1 are twisted into a core around a round support cord 4 made of rubber and covered by an element 2, which fastens in the form of a winding with an overlap, on top of which the inner shell 5 and armor b, which is made in the form of

Han. braiding from galvanized steel wires with a density of 8095. On top of the armor 6, the element 2, which fastens in the form of a winding with an overlap and the outer shell 7, is successively applied.

Shells 5 and 7 are made of cross-linked halogen-free composition and applied on the extrusion line. 60 b5 shk and eh and in ge 5 . M din:

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Claims (4)

The formula of the invention is more and more 1. Power ship cable for explosive environments, containing two or more current-conducting cores with rubber insulation, twisted into a core, a fastening element, armor located between the inner and outer plastic sheaths, which is distinguished by the fact that each core is made of the 2nd class of flexibility with insulation from ethylene propylene rubber, the fastening element is made of polyethylene terephthalate film, and the inner and outer shells are made of extruded cross-linked halogen-free composition or non-flammable polyvinyl chloride plastic. b" 2. The cable according to claim 1, which is distinguished by the fact that the armor is made of braided steel galvanized wires with a density of not less than 80905. 3. The cable according to claim 1, which is characterized by the fact that it additionally contains a round cord made of rubber. d) 4. The cable according to claim 1, which is characterized by the fact that it additionally contains a fastening element on top of the conductive core, insulated core and/or armor. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 7, 15.07.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. Mauki Ukr. and? (ee) ime) se) 4) So 60 b5