Power cable for flame-retardant fireproof boat and manufacturing method thereof

A power cable, flame-retardant and fire-resistant technology, which is used in the manufacture of flame-retardant and fire-resistant marine power cables, and the field of flame-retardant and fire-resistant marine power cables. and other problems to achieve the effect of eliminating voids, enhancing impregnation, and facilitating continuous transmission.

Active Publication Date: 2013-07-31
浙江华威设备制造有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] If the outer periphery of the power cable core is directly extruded with the inner sheath, the inner sheath will be bonded to the surface of the insulated core of the power cable, making it difficult to remove during construction, and it is easy to damage the insulated core of the power cable when cutting with an electrician's knife; Ordinary cables are wrapped with a wrapping tape around the outer circumference of the power cable core along the circumferential direction of the power cable core. Since one wrapping tape is continuously wound along the circumferential direction of the power cable core, the tension of the wrapping tape is relatively large during winding. The wrapping tape between the insulated cores of the power cable is wound along the direction of the common tangent of the two insulated cores of the power cable, so there is a gap between the wrapping tape and the insulated core of the power cable. When the outer circumference of the tape is squeezed into the inner sheath, the gap around the inside of the tape cannot be eliminated, and this gap can become a channel for the flame to spread forward

Method used

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  • Power cable for flame-retardant fireproof boat and manufacturing method thereof
  • Power cable for flame-retardant fireproof boat and manufacturing method thereof
  • Power cable for flame-retardant fireproof boat and manufacturing method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0023] Such as figure 1 As shown, the flame-retardant and fire-resistant marine power cable of the present invention includes the following steps in turn: uniformly extruding a flame-retardant and fire-resistant ethylene-propylene rubber insulation layer 1b on the outer periphery of the stranded copper conductor 1a to form a power cable insulation core 1, and multiple power cables Cable insulated cores 1 are twisted together to form a power cable core, and the outer periphery of the power cable core is longitudinally wrapped with a low-strength non-woven longitudinal cladding 2, and the outer periphery of the low-strength non-woven longitudinal cladding 2 is extruded with an inner sheath 3. Tightly squeeze the low-strength non-woven longitudinal cladding 2 on the insulated wire core of the power cable, then weave the armored braiding layer 4 on the outer periphery of the inner sheath, and extrude the outer sheath 5 on the outer periphery of the armored braiding layer 4 . The ...

Embodiment 2

[0028] Such as figure 1 As shown, the flame-retardant and fire-resistant marine power cable of the present invention includes the following steps in turn: uniformly extruding a flame-retardant and fire-resistant ethylene-propylene rubber insulation layer 1b on the outer periphery of the stranded copper conductor 1a to form a power cable insulation core 1, and multiple power cables Cable insulated cores 1 are twisted together to form a power cable core, and the outer periphery of the power cable core is longitudinally wrapped with a low-strength non-woven longitudinal cladding 2, and the outer periphery of the low-strength non-woven longitudinal cladding 2 is extruded with an inner sheath 3. Tightly squeeze the low-strength non-woven longitudinal cladding 2 on the insulated wire core of the power cable, then weave the armored braiding layer 4 on the outer periphery of the inner sheath, and extrude the outer sheath 5 on the outer periphery of the armored braiding layer 4 . The ...

Embodiment 3

[0033] Such as figure 1 As shown, the flame-retardant and fire-resistant marine power cable of the present invention includes the following steps in turn: uniformly extruding a flame-retardant and fire-resistant ethylene-propylene rubber insulation layer 1b on the outer periphery of the stranded copper conductor 1a to form a power cable insulation core 1, and multiple power cables Cable insulated cores 1 are twisted together to form a power cable core, and the outer periphery of the power cable core is longitudinally wrapped with a low-strength non-woven longitudinal cladding 2, and the outer periphery of the low-strength non-woven longitudinal cladding 2 is extruded with an inner sheath 3. Tightly squeeze the low-strength non-woven longitudinal cladding 2 on the insulated wire core of the power cable, then weave the armored braiding layer 4 on the outer periphery of the inner sheath, and extrude the outer sheath 5 on the outer periphery of the armored braiding layer 4 . The ...

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Abstract

The invention relates to a power cable for a flame-retardant fireproof boat and a manufacturing method thereof. Flame-retardant fireproof ethylene propylene rubber insulating layers are uniformly extruded on the peripheries of stranded copper conductors in a wrapping way to form power cable insulated cores; a plurality of power cable insulated cores are stranded to form a power cable core; the periphery of the power cable core is coated with a low-intensity non-woven fabric longitudinally-covered layer; an inner jacket is extruded on the periphery of the low-intensity non-woven fabric longitudinally-covered layer in a wrapping way; the periphery of the inner jacket is coated with an armor braid; and an outer jacket is extruded on the periphery of the armor braid in a wrapping way. The cable disclosed by the invention adopts the low-intensity non-woven fabric longitudinally-covered layer of which the shape is completely in fit with that of each power cable insulated core, so that gaps between the low-intensity non-woven fabric longitudinally-covered layer and the power cable insulated cores are eliminated, flame can be conveniently prevented from being spread and transferred inwards under the burning condition, and resistance to impregnation of humidity can be enhanced; and meanwhile, the low-intensity non-woven fabric longitudinally-covered layer can ensure that the inner jacket and the insulated cores are not adhered, so that the insulated cores are not damaged when the jacket is stripped in the constructing process.

Description

technical field [0001] The invention relates to a power cable, in particular to a flame-retardant and fire-resistant marine power cable. The invention also relates to a method for manufacturing a flame-retardant and fire-resistant marine power cable. Background technique [0002] At present, fire-resistant marine power cables generally adopt several structures such as mica tape wrapped conductor, mineral insulation, and extruded refractory silicone rubber outer braided glass fiber wire combination insulation, etc., but these types of fire-resistant cables have great disadvantages: [0003] Mica tape wrapped refractory cables are wrapped with mica tape outside the conductor. Due to the large number of cores in marine power cables, using mica tape to wrap will result in a large outer diameter and heavy weight of the finished cable, which is not conducive to the load of the ship. [0004] The remarkable feature of mineral insulated cables is that the conductor is covered with ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B9/00H01B13/00H01B13/14
Inventor 李永江陆云春
Owner 浙江华威设备制造有限公司
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