Flame-retardant cable

A technology of cables and flame-retardant fillers, which is applied in the field of cables, can solve problems that hinder equipment layout and installation, affect signal transmission stability and reliability, and achieve the effect of reducing product costs

Inactive Publication Date: 2016-04-06
叶玉浩
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] With the rapid development of the national economy, the use of cables and the density of laying are getting higher and higher; especially in the field of the Internet of Things, the field bus of the Internet of Things involves the transmission of frequency division multiple data signals, voice signals, image signals and power signals. The existing technology uses optical fiber, data line, and power line to transmit the above-mentioned signals and data, resulting in spider web-like cables covering the entire site, which not only affects the stability and reliability of signal transmission, but also hinders the layout of other equipment on the site and install

Method used

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  • Flame-retardant cable

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A flame-retardant cable comprising a core material, the core material is iron-based alloy wire, copper-based alloy wire and aluminum-based alloy wire stranded, the core material is coated with flame-retardant filler, and the flame-retardant filler is moisture-proof The moisture-proof layer is covered with a lightweight woven mesh, and the lightweight woven mesh is an insulating layer.

[0025] The content of each element component of the iron-based alloy wire rod is: C0.02﹪, Ti0.7﹪, Si0.5﹪, Zr0.4﹪, Nb0.2﹪, Co0.1﹪, Cu0.08﹪, Ag0.07﹪ , Ta0.05﹪, Ga0.04﹪, In0.01﹪, the balance is Fe,

[0026] The content of each element of the copper-based alloy wire is: Co2﹪, Zn0.7﹪, Ag0.4﹪, Ta0.3﹪, Ga0.2﹪, In0.1﹪, Ni0.07﹪, Sc0.04﹪, Ca0 .03﹪, La0.03﹪, W0.01﹪, the balance is Cu,

[0027] The content of each element component of the aluminum-based alloy wire is: Si1﹪, Sn0.8﹪, Nb0.6﹪, Cu0.5﹪, Cr0.3﹪, V0.2﹪, Mo0.06﹪, Ag0.05﹪, Ce0 .04﹪, Pr0.03﹪, Cd0.01﹪, the balance is Al,

[0028] The flame-retardant...

Embodiment 2

[0032] A flame-retardant cable comprising a core material, the core material is iron-based alloy wire, copper-based alloy wire and aluminum-based alloy wire stranded, the core material is coated with flame-retardant filler, and the flame-retardant filler is moisture-proof The moisture-proof layer is covered with a lightweight woven mesh, and the lightweight woven mesh is an insulating layer.

[0033] The content of each element component of the iron-based alloy wire rod is: C0.03﹪, Ti0.8﹪, Si0.6﹪, Zr0.5﹪, Nb0.3﹪, Co0.2﹪, Cu0.09﹪, Ag0.08﹪ , Ta0.06﹪, Ga0.05﹪, In0.02﹪, the balance is Fe,

[0034] The content of each element component of the copper-based alloy wire rod is: Co3﹪, Zn0.8﹪, Ag0.5﹪, Ta0.4﹪, Ga0.3﹪, In0.2﹪, Ni0.08﹪, Sc0.05﹪, Ca0 .04﹪, La0.04﹪, W0.02﹪, the balance is Cu,

[0035] The content of each element component of the aluminum-based alloy wire is: Si2﹪, Sn0.9﹪, Nb0.7﹪, Cu0.6﹪, Cr0.4﹪, V0.3﹪, Mo0.07﹪, Ag0.06﹪, Ce0 .05﹪, Pr0.04﹪, Cd0.02﹪, the balance is Al,

[0036] The f...

Embodiment 3

[0040] A flame-retardant cable, comprising a core material, the core material is iron-based alloy wire, copper-based alloy wire and aluminum-based alloy wire stranded, the core material is coated with a flame-retardant filler, and the flame-retardant filler is moisture-proof The moisture-proof layer is covered with a lightweight woven mesh, and the lightweight woven mesh is an insulating layer.

[0041] The content of each element component of the iron-based alloy wire: C0.025﹪, Ti0.75﹪, Si0.55﹪, Zr0.45﹪, Nb0.25﹪, Co0.15﹪, Cu0.085﹪, Ag0.075﹪ , Ta0.055﹪, Ga0.045﹪, In0.015﹪, the balance is Fe,

[0042] The content of each element of the copper-based alloy wire is: Co2.5%, Zn0.75%, Ag0.45%, Ta0.35%, Ga0.25%, In0.15%, Ni0.075%, Sc0.045% , Ca0.035﹪, La0.035﹪, W0.015﹪, the balance is Cu,

[0043] The content of each element component of the aluminum-based alloy wire is: Si1.5%, Sn0.85%, Nb0.65%, Cu0.55%, Cr0.35%, V0.25%, Mo0.065%, Ag0.055% , Ce0.045﹪, Pr0.035﹪, Cd0.015﹪, the balance is ...

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Abstract

The invention discloses a flame-retardant cable, which comprises a core material, wherein the core material is formed by twisting an iron-based alloy wire, a copper-based alloy wire and an aluminum-based alloy wire; a flame-retardant filler coats the outside of the core material; a damp-proof layer is arranged on the outer side of the flame-retardant filler; a lightweight woven mesh coats the outside of the damp-proof layer; and an insulating layer is arranged on the outer side of the lightweight woven mesh. By means ofthe iron-based alloy wire, the copper-based alloy wire and the aluminum-based alloy wire in the flame-retardant cable, the strength requirement and the conductivity requirement of the core material are met; the flame-retardant filler can ensure fire-resistant and flame-retardant characteristics in the working process; and the product cost can also be reduced.

Description

Technical field [0001] The invention relates to a flame-retardant cable, which belongs to the technical field of cables. Background technique [0002] With the rapid development of the national economy, the use and laying density of cables are getting higher and higher; especially in the field of the Internet of Things, the Internet of Things fieldbus involves the transmission of frequency division multiple data signals, voice signals, image signals and power signals. Existing technologies use optical fibers, data lines, and power lines to transmit the above-mentioned signals and data, resulting in spider web-like cables covering the entire site, which not only affects the stability and reliability of signal transmission, but also prevents interference with the layout of other equipment on the site. And installation. In recent years, fires caused by electricity have increased year by year, and fires caused by wires and cables account for a considerable proportion. In a fire, th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B7/17H01B7/18H01B7/22H01B7/295H01B7/282C08L23/22C08L23/08C08L83/04C08L81/02C08K13/02C08K5/12C08K5/103C08K5/01C08K3/34C08K3/22C08K3/40C08K3/38C08K3/30
CPCY02A30/14H01B7/17C08K3/22C08K3/346C08K5/01C08K5/103C08K5/12C08K13/02C08K2003/2224C08L23/0815C08L2203/202C08L2205/035H01B7/18H01B7/22H01B7/282H01B7/295C08L23/22C08L83/04C08L23/0853C08L81/02C08K3/34C08K2003/2227C08K3/40C08K2003/387C08K2003/3036
Inventor 叶玉浩
Owner 叶玉浩
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