Power transmission cable with anti-icing function and preparation method of power transmission cable

A power transmission cable, anti-icing technology, applied to power cables with shielding layer/conductive layer, power cables for overhead applications, power cables, etc., can solve the problem of surface snow melting and icing, adding carbon fiber heating wires Solve the problems of melting ice, aging and damage of insulation layer, etc., so as to slow down heat escape, prolong life, and prevent overheating and aging

Active Publication Date: 2017-03-22
FUJIAN REIDA PRECISION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0011] 1. When it snows in winter, the high-voltage transmission line freezes and causes the overweight fracture of the overhead transmission line, or the collapse of the iron tower and pole, causing a large-scale power outage
[0012] 2. Due to the heat loss of the high-voltage transmission line, the insulation layer is aged and damaged
[0013] 3. The surface of the cable proposed by the above invention is coated with a waterproof layer to slow down icing; adding carbon fiber heating wires to melt ice; wrapping the outer layer with deicing cloth and using high-pressure gas expansion to deicing; measures such as a single phase change material layer for heat dissipation cannot solve the problem The fundamental problem of snow melting and icing on the surface of high voltage cables due to heat dissipation in snowy weather
[0014] 4. When using phase-change temperature-controlled high-voltage cables, because only paraffin-based microcapsules + polyolefin phase-change materials are used, the content of effective phase-change materials is low, and its quality is less than 80%. The plasticity of olefin is quite different from that of paraffin, which is not conducive to obtaining a uniform phase change layer structure

Method used

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  • Power transmission cable with anti-icing function and preparation method of power transmission cable
  • Power transmission cable with anti-icing function and preparation method of power transmission cable

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Effect test

specific Embodiment approach

[0053] A power transmission cable with an anti-icing function, from the inside to the outside: a power transmission cable inner core 1, an insulating layer 2 sheathed outside the power transmission cable inner core 1, a cable shielding layer 4 sheathed outside the insulating layer 2 , and the cable sheath layer 5 set outside the cable shielding layer 4, characterized in that: an anti-icing functional layer 3 is also provided between the insulating layer 2 and the cable shielding layer 4,

[0054] The anti-icing functional layer 3 includes an inner high-temperature composite phase-change material layer 31 and an outer low-temperature composite phase-change material layer 32 .

[0055] As a preferred embodiment, the high-temperature composite phase-change material layer 31 is mainly composed of a high-oil-absorbing non-woven fiber braid and a high-temperature composite phase-change material adsorbed on the high-oil-absorbing non-woven fiber braid.

[0056] Further, the high oil-...

Embodiment 1

[0077] 1) Coat the inner core of the cable with an internal insulating resin, and make the internal insulating resin undergo steam cross-linking at 1.8MPa for 1 minute to form an insulating layer.

[0078] 2) Use the winding method to bind the polypropylene high oil-absorbing non-woven fiber braid, and immerse it in 70°C paraffin under vacuum to make it fully absorbed.

[0079] 3) Squeeze off excess paraffin and cool to room temperature.

[0080] 4) Tie the polyacrylamide superabsorbent non-woven fiber braid by winding method, and immerse it in a 50% ethylene glycol aqueous solution low-temperature composite phase change material solution containing 0.3% disodium hydrogen phosphate under vacuum to make it fully absorbed.

[0081] 5) Squeeze off excess ethylene glycol solution.

[0082] 6) Use the winding method to tie the aluminum foil shielding layer.

[0083] 7) The sheath material of the cable, low-smoke halogen-free polyethylene, is extruded and covered at a temperature...

Embodiment 2

[0085] 1) Coat the inner core of the cable with an internal insulating resin, and make the internal insulating resin undergo steam cross-linking at 1.8MPa for 1 minute to form an insulating layer.

[0086] 2) Tie a cellulose high oil-absorbing non-woven fiber braid grafted with acrylamide and butyl methacrylate by winding method, and immerse it in polyethylene glycol 800 at 70°C under vacuum to make it fully absorbed.

[0087]3) Squeeze off excess polyethylene glycol and cool to room temperature.

[0088] 4) Use the winding method to bind the viscose fiber super absorbent non-woven fiber braid, and immerse it in an aqueous solution containing 0.25% disodium hydrogen phosphate, 20% ethylene glycol and 20% diethylene glycol under vacuum to make it fully absorbed.

[0089] 5) Squeeze off excess above aqueous solution.

[0090] 6) Use the winding method to bind the iron sheet steel wire shielding layer.

[0091] 7) The sheath material of the cable, low-smoke halogen-free polyet...

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Abstract

The invention relates to a power transmission cable with an anti-icing function. The power transmission cable sequentially comprises a power transmission cable inner core, an insulating layer sleeving the outside of the power transmission cable inner core, a cable shielding layer sleeving the outside of the insulating layer, and a cable sheath layer sleeving the outside of the cable shielding layer from inside to outside, wherein the power transmission cable is characterized in that an anti-icing function layer is also arranged in the middle of the insulating layer and the cable shielding layer and comprises an inner-layer high-temperature composite phase change material layer and an outer-layer low-temperature phase change material layer. The power transmission cable is reasonable in structure design and various parts are tightly combined and mutually isolated and insulated. In cold weather, the inner-layer high-temperature composite phase change material layer is capable of retarding heat escape and preventing overheat ageing of an outer-layer material; and the outer-layer low-temperature phase change material layer is capable of keeping the outer surface of the cable in a relatively low temperature state, preventing snow melting and icing, caused by heating of the inner core, of the outer surface of the power transmission cable, preventing cold shortness of the cable material and prolonging the life of the cable protection layer and the insulating layer.

Description

technical field [0001] The invention relates to a power transmission cable, especially suitable for a power transmission cable with an anti-icing function and a preparation method thereof. Background technique [0002] High-voltage overhead transmission lines will generate a certain amount of heat under the condition of power transmission. In winter, the outdoor temperature is generally below zero, and that insignificant heat will be immediately absorbed by the surrounding low temperature. In the case of snow, it will cause The attached snowflakes change from solid form to liquid form, so-called melting into water. When the heat release rate of the high-voltage wire is slower than the freezing speed, it will condense into ice, so the high-voltage wire will generally freeze. Due to the icing on the surface, the overweight fracture of the overhead transmission line, or the collapse of the iron tower and the pole, cause a large-scale power outage, and cause heavy losses to ind...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B9/00H01B9/02H01B7/17H01B7/28H01B13/06H01B13/22H01B13/24H01B13/26H01B13/30
CPCH01B7/17H01B7/28H01B9/008H01B9/02H01B13/06H01B13/22H01B13/24H01B13/2613H01B13/30D07B2401/203
Inventor 蒋维甘纯玑
Owner FUJIAN REIDA PRECISION
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