RU2061268C1 - Optical communicatin cable - Google Patents

Abstract

FIELD: electrical engineering; fiber-optic communication lines. SUBSTANCE: optical communication cable has central reinforcing dielectric member, lay of optical fibers in insulating tubes, inner and outer insulating coats, inner and outer metal sheaths with insulated conductors inbetween. Conducting contact members are inserted between two adjacent insulated conductors and equally spaced from them; dielectric members are fitted between conducting contact member and each insulated conductor, number of insulating members being n, where n = 1, 2, 3, ... . EFFECT: reduced input of conducting material and improved protection of optical cable against external electromagnetic fields. 1 dwg

Description

 The invention relates to electrical engineering and can be used in the construction of optical cables in the construction of fiber-optic communication lines.

A known design of an optical cable containing a Central reinforcing element of metal, optical fibers in plastic modules, insulation, aluminum sheath, polyethylene sheath [1]
The disadvantage of the design is the possibility of damage to the cable when exposed to strong electromagnetic fields.

 Structures containing insulated cores and metal reinforcing elements are also known. However, there is also a great danger of damage to the optical cable when exposed to strong electromagnetic fields.

 Closest to the technical nature of the invention is a cable structure comprising a central reinforcing element, twisted from optical fibers, inner and outer insulation coatings, inner and outer metal sheaths, between which insulated conductors are placed.

 The design protects the cable from external electromagnetic influences. A conductive material is used as a filler of the free space between two metal shells. The design drawback is the high metal content due to the presence of a large amount of conductive material.

 The task to which this technical solution is aimed is to create such a design of an optical communication cable that will reduce the use of conductive material while increasing the security of the optical cable from external electromagnetic fields.

This goal is achieved by the fact that in an optical communication cable containing a central reinforcing dielectric element, twisted from optical fibers in dielectric tubes, the inner and outer insulating coatings, the inner and outer metal sheaths between which the insulated conductors are placed, between two adjacent insulated conductors on the same contact conductive elements are introduced at a distance from them, and dielectric elements are introduced between the contact conductive element and each insulated core, Lo which is equal to n, where n 1,2,3,
The drawing shows the design of the optical cable. The cable contains a central reinforcing dielectric element 1, optical fibers 2 dielectric tubes on optical fibers 3, an inner insulating coating 4, an inner metal sheath 5, dielectric elements 6, contact conductive elements 7, insulated cores 8, an outer metal sheath 9, an outer insulating coating 10 .

 The design works as follows.

 The combination of the central reinforcing dielectric element, the optical fibers in the dielectric tubes and the inner insulating coating is a dielectric optical core of the cable. Since the dielectric optical core is located under the inner metal sheath, it is not exposed to an external electromagnetic field.

 In a known cable design, under the influence of an electromagnetic field, an electric arc may occur between the inner and outer metal sheaths, between the inner metal sheath and insulated conductors, between the outer metal sheath and insulated conductors and between insulated conductors.

 The use of contact conductive elements eliminates the occurrence of an electric arc between metal shells. The introduction of contact conductive elements between insulated conductors can increase the shielding effect of insulated conductors and, therefore, reduce the likelihood of electrical breakdown between the conductors and between the insulated conductors and the sheath.

 Introduced dielectric elements increase the dielectric strength between insulated cores and contact conductive elements.

 As a result, the overall likelihood of an electric arc inside the optical cable is significantly reduced and, therefore, the security of the optical cable from external electromagnetic fields is increased.

 At the same time, the introduced dielectric elements not only increase the electric strength of the isolated conductors relative to the contact conductive elements, but also reduce the metal consumption by replacing the conductive elements.

Claims (1)

 An optical communication cable containing a central reinforcing dielectric element, twisted from optical fibers in dielectric tubes, internal and external insulating coatings, internal and external metal sheaths, between which insulated conductors are placed, characterized in that between two adjacent insulated conductors at the same distance from them contact conductive elements are introduced, and dielectric elements are introduced between the contact conductive element and each insulated core, the number of which is equal to th positive number.

Images