Flexible fireproof cable production process

A fireproof cable and production process technology, applied in the direction of insulated cables, bendable cables, cable/conductor manufacturing, etc., can solve problems such as hidden dangers, fireproof cables are not in place, cables lose fire protection, environmental protection, etc., to ensure safe operation, Good thermal insulation, hazard reduction effect for personnel and electrical equipment

Pending Publication Date: 2021-10-22
安徽正豪电缆有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In places with dense population and high fire safety level, due to the complexity of the laying site, the fireproof cables used may not be in place due to the special structure of the main cable and branch cable joints. Once the structure of the fireproof cable is damaged, it is inevitable Cause safety hazards, and will make the cable lose fire protection, environmental protection and other performance
[0003] Existing flexible fireproof cables mostly adopt copper sheath structure, the bending radius of the cable is small, it is difficult to bend a large arc, and it is convenient to install in a small space
At the same time, the fireproof performance of the existing flexible fireproof cables is still insufficient. After a fire occurs, the cable core inside the cable cannot be isolated and blocked from burning.

Method used

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  • Flexible fireproof cable production process

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A kind of flexible fireproof cable production process comprises the following steps:

[0027] S1. Drawing and annealing the copper rod to obtain a copper wire with a diameter of 0.5 mm, and then twisting 30 copper wires to form a copper conductor;

[0028] S2, wrapping the flame-retardant composite tape outside the conductor to form a fire-resistant layer, and the wrapping overlap rate is controlled at 25%, and then extruding ethylene-propylene rubber outside the fire-resistant layer to form an insulating layer to obtain a conductive cable core;

[0029] S3. Gather at least two conductive cable cores and then fill the periphery with aluminum hydroxide, magnesium hydroxide, anhydrous magnesium carbonate or layered sodium silicate to obtain a filling layer;

[0030] S4. Wrapping the mica tape outside the filling layer to obtain a mica wrapping layer, the wrapping overlap rate is controlled at 25%, and then extruding ceramic silicone rubber outside the mica wrapping layer ...

Embodiment 2

[0037] A kind of flexible fireproof cable production process comprises the following steps:

[0038] S1. Drawing and annealing the copper rod to obtain a copper wire with a diameter of 2mm, and then twisting 15 copper wires to form a copper conductor;

[0039] S2. Wrapping the outside of the conductor with a flame-retardant composite tape to form a refractory layer, the wrapping overlap rate is controlled at 20%, and then extruding ethylene-propylene rubber on the outside of the refractory layer to form an insulating layer to obtain a conductive cable core;

[0040] S3. Gather at least two conductive cable cores and then fill the periphery with aluminum hydroxide, magnesium hydroxide, anhydrous magnesium carbonate or layered sodium silicate to obtain a filling layer;

[0041] S4. Wrapping the mica tape outside the filling layer to obtain a mica wrapping layer, the wrapping overlap rate is controlled at 20%, and then extruding ceramic silicone rubber outside the mica wrapping l...

Embodiment 3

[0048] A kind of flexible fireproof cable production process comprises the following steps:

[0049] S1. Drawing and annealing the copper rod to obtain a copper wire with a diameter of 2 mm, and then twisting 10 copper wires to form a copper conductor;

[0050] S2, wrapping the flame-retardant composite tape outside the conductor to form a fire-resistant layer, and the wrapping overlap rate is controlled at 25%, and then extruding ethylene-propylene rubber outside the fire-resistant layer to form an insulating layer to obtain a conductive cable core;

[0051] S3. Gather at least two conductive cable cores and then fill the periphery with aluminum hydroxide, magnesium hydroxide, anhydrous magnesium carbonate or layered sodium silicate to obtain a filling layer;

[0052] S4. Wrapping the mica tape outside the filling layer to obtain a mica wrapping layer, the wrapping overlap rate is controlled at 25%, and then extruding ceramic silicone rubber outside the mica wrapping layer to...

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Abstract

The invention discloses a flexible fireproof cable production process which comprises the following steps: S1, drawing a copper bar into copper wires, and twisting the copper wires to form a copper conductor; S2, wrapping a flame-retardant composite belt outside the conductor to form a fireproof layer, and then extruding ethylene propylene rubber outside the fireproof layer to form an insulating layer; S3, bundling at least two conductive cable cores, and then filling the periphery of the bundled conductive cable cores with high-flame-retardant inorganic matters to obtain a filling layer; S4, wrapping a mica tape outside the filling layer to obtain a mica wrapping layer, and then extruding ceramic silicone rubber outside the mica wrapping layer to form a lining layer; S5, wrapping the outside of the lining layer with an aluminum alloy metal belt to form an aluminum sheath; and S6, braiding outside the aluminum sheath to form a braided layer, and finally extruding crosslinking modified low-density polyethylene outside the braided layer to form a sheath layer, thereby obtaining the flexible fireproof cable. The flexible fireproof cable produced by the process disclosed by the invention has good heat insulation property, insulating property and aging resistance.

Description

technical field [0001] The invention relates to the field of fireproof cables, in particular to a production process for flexible fireproof cables. Background technique [0002] In recent years, due to the country's emphasis on environmental protection and fire safety, the research and development and design of the wire and cable industry have developed in the fields of environmental protection and safe use performance. Flexible mineral insulated cables NG / A-(BTLY), BBTRZ, etc. can maintain power supply in a fire and withstand the impact of fire water spray and heavy objects falling, so they are designed for the construction field with high environmental protection requirements and strict safety factor level requirements widely used. In places with dense population and high fire safety level, due to the complexity of the laying site, the fireproof cables used may not be in place due to the special structure of the main cable and branch cable joints. Once the structure of th...

Claims

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Application Information

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IPC IPC(8): H01B13/24H01B13/14H01B13/008H01B7/04H01B3/44H01B7/295H01B7/29H01B7/28
CPCH01B13/24H01B13/14H01B13/008H01B7/04H01B3/441H01B7/295H01B7/292H01B7/28Y02A30/14
Inventor 朱学宏吕华锦吴云
Owner 安徽正豪电缆有限公司
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