CN107195360B - Conductive rope for underwater intelligent data transmission - Google Patents

Abstract

The invention relates to a conductive rope for underwater intelligent data transmission, which sequentially comprises a conductive layer, a reinforcing layer, an insulating layer and a protective layer from inside to outside. According to the invention, the conductive fiber with low resistivity and high durability is used as the conductive layer to conduct charges, the strength is ensured by the reinforcing layer, the insulating layer is used for isolating the influence of outer charges on the conductive layer, and the protective layer protects the internal structure, so that electric leakage and water seepage are avoided, and electric signals are transmitted more efficiently. The invention has the characteristics of high conduction efficiency, high strength, good flexibility, small diameter, water resistance, corrosion resistance, biological adhesion prevention and the like, can participate in the braiding of the net body, effectively improves the protective performance while guaranteeing the strength and the insulativity of the rope net, and can be used for underwater intelligent data conduction.

Description

Conductive rope for underwater intelligent data transmission

Technical Field

The invention relates to a conductive rope, in particular to an intelligent data conduction conductive rope for water areas such as rivers, lakes, oceans and the like.

Background

In the field of marine underwater defense, a braided conductive carrier is used to transmit electrical signals, and the material must be flexible enough. The current conductive ropes sold in the market generally take copper cores as conductor materials, and the problems of poor flexibility, large diameter, no water resistance and the like generally exist, so that the development of the conductive rope with water resistance, corrosion resistance, good flexibility and small diameter is urgently needed to meet the requirements of underwater operation.

Disclosure of Invention

The invention aims to solve the technical problems of water resistance, corrosion resistance, good flexibility and small diameter of a conductive rope, and solves the problems of generally thicker, poor flexibility and difficult braiding of the existing underwater wire.

The technical scheme adopted for solving the technical problems is as follows: a conductive rope for underwater intelligent data transmission is provided, which comprises a conductive layer, a reinforcing layer, an insulating layer and a protective layer. The invention takes the conductive fiber with low resistivity, good conductivity and durability as the conductive layer, ensures the strength through the reinforcing layer, and the insulating layer is used for isolating the influence of outer charges on the conductive layer, and the protective layer protects the internal structure and avoids electric leakage and water seepage, thereby transmitting the electric signal more efficiently. The invention has the characteristics of high conduction efficiency, high strength, good flexibility, small diameter, water resistance, corrosion resistance, biological adhesion prevention and the like, and can be used as a wire for being used alone under water and can be used as a net rope material for weaving into a net body.

The conductive layer is formed by bundling conductive fibers and fixing the conductive fibers in a crossed double-helix mode through two bundles of aramid fibers. The reinforcing layer is woven by aramid fiber. The insulating layer is a polyimide or polytetrafluoroethylene film. The protective layer is a high molecular polyethylene fiber woven layer, gaps in the woven layer are filled with polymer solution, and a layer of compact film is formed after curing.

Advantageous effects

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects:

(1) The conductive rope has high strength, corrosion resistance and water resistance, and can be used under water for a long time;

(2) The conductive rope has small diameter, and all the structural layers adopt films, fibers and the like with better flexibility, so that the conductive rope can be used as a net rope to be woven into a net body.

Drawings

Fig. 1 is a schematic diagram of a conductive rope structure.

Detailed Description

The invention will be further illustrated with reference to specific examples. It is to be understood that these examples are illustrative of the present invention and are not intended to limit the scope of the present invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Embodiments of the present invention relate to a water resistant conductive cord, as shown in fig. 1, comprising a conductive layer, a reinforcing layer, an insulating layer, and a protective layer. The conductive layer is formed by bundling polyacetylene conductive fibers to form a cylinder with the diameter of 0.2 mm; the reinforcing layer is formed by taking high-strength high-modulus low-elongation-at-break aramid fiber as a raw material, and co-weaving the conductive layer and the aramid fiber in a weaving machine so as to form a high-strength aramid woven layer outside the conductive layer; the insulating layer is formed by wrapping a combination of the conducting layer and the reinforcing layer by using a polyimide insulating film, and the middle of the insulating layer is welded by laser so as to ensure the integral tightness; the protective layer is formed by performing surface treatment on high polymer polyethylene fiber, and after the effects of water resistance, corrosion resistance and biological adhesion prevention are achieved, co-knitting the high polymer polyethylene fiber, the conductive layer, the reinforcing layer and the insulating layer on a knitting machine, forming a high polymer polyethylene knitting layer on the periphery of the high polymer polyethylene fiber, and finally soaking the high polymer polyethylene knitting layer in a polymer solution, and forming a compact film in the knitting layer after curing. Finally, the water-resistant conductive rope with the diameter of 1.5mm can be obtained.

Claims (1)

1. The conductive rope for underwater intelligent data transmission is characterized by comprising a conductive layer (1), a reinforcing layer (2), an insulating layer (3) and a protective layer (4), wherein the conductive layer (1) is formed by bundling polyacetylene conductive fibers to form a cylinder with the diameter of 0.2 mm; the reinforcing layer (2) is prepared by taking high-strength high-modulus low-elongation-at-break aramid fiber as a raw material, and co-knitting the conductive layer (1) and the aramid fiber in a weaving machine, so that a high-strength aramid woven layer is formed on the periphery of the conductive layer (1); the insulating layer (3) is formed by wrapping the combination of the conductive layer (1) and the reinforcing layer (2) by polyimide insulating films; the protective layer (4) is formed by performing surface treatment on high-molecular polyethylene fibers, and after the effects of water resistance, corrosion resistance and biological adhesion prevention are achieved, co-knitting the high-molecular polyethylene fibers, the conductive layer (1), the reinforcing layer (2) and the insulating layer (3) on a weaving machine, forming a high-molecular polyethylene woven layer on the periphery of the high-molecular polyethylene fibers, finally soaking the high-molecular polyethylene woven layer in a polymer solution, and forming a compact film in the woven layer after curing; the diameter of the conductive rope is 1.5mm.