RU185215U1 - ARMORED OPTICAL CABLE - Google Patents

Abstract

The invention relates to the design of armored optical communication cables, which are designed for operation in high humidity conditions. An armored optical cable containing at least one optical module in the form of a tube, inside of which at least one optical fiber and a hydrophobic filler are laid, an armored cover that is made in the form of fiberglass rods, and a sheath, with power element made of 4-aramid filaments with a linear density of 1580 dTex, laid longitudinally and fastened with a polyester thread. The technical result is a reduction in the dimensions and weight of the cable with the same mechanical loads applied to the cable. 3 s.p. f-ly, 1 ill.

Description

The claimed technical solution relates to the construction of armored optical communication cables, which are designed for operation in various conditions, including swamps and shallow non-navigable rivers, in cable ducts, pipes, trays, blocks, tunnels, collectors, on bridges and overpasses, for suspension on line supports communications, contact network and auto-blocking of railways, power lines, lighting poles, power facilities, between buildings and structures, inside buildings, as well as with increased requirements for resistance to internal shnim electromagnetic effects.

Known optical cable armored, patented as a utility model of the Russian Federation 178540, containing at least one optical module in the form of a tube, inside of which at least one optical fiber is laid and there is a hydrophobic filler, bandage, armor cover, which is made in the form of a braid galvanized steel wire with a density of up to 90% and a sheath.

The disadvantage of this cable is that metal is used in the cable, which does not allow its use in conditions of increased external electromagnetic influences.

The closest is a TOD-P cable manufactured according to TU 3587-001-88083123-2010, consisting of a central optical module with freely laid fibers, where the free space in the optical module is filled with a hydrophobic gel. At the same time, fiberglass reinforced armor is spirally imposed on the central optical module, and the free space between the rods is filled with a hydrophobic gel. A shell made of medium density polyethylene is superimposed on the armor.

The technical result of the proposed technical solution of the optical armored cable is that the cable has smaller dimensions and weight with the same mechanical properties, thereby expanding the scope of this cable. It also simplifies installation, especially in tight spaces.

The image of the proposed cable is shown in the Figure, where:

1 - optical fiber; 2 - intramodular hydrophobic aggregate; 3 - an optical module of polybutylene terephthalate; 4 - aramid yarns laid longitudinally and fastened with polyester yarn, 5 - fiberglass rods; 6 - a shell made of polyethylene.

Description of the claimed technical solution

Armored optical cable containing at least one optical module 3 in the form of a tube made of a polymeric material - polybutylene terephthalate, inside of which at least one optical fiber 1 is laid and there is a hydrophobic filler 2, a bandage 4 in the form of aramid threads laid longitudinally and fastened with polyester thread, armor cover 5, which is made in the form of fiberglass rods, and a shell 6, which can be made of various materials: polyethylene of various densities, non-combustible halogen-free polymer compositions, polyurethane.

An example of a cable optical armored

The well-known four-fiber cable, optical, armored with nine glass rods with a diameter of 1.0 mm had an allowable tensile load of 2.2 kN.

To increase the allowable tensile load to 2.5 kN, it is necessary to increase the diameter of the glass rods to 1.1 mm, while the outer diameter of the cable will increase by 7.5%, weight by 19%.

If we use the patented solution (i.e., using an additional power element of 4-aramid filaments with a linear density of 1580 dTex), then when using armor from the same glass rods with a diameter of 1.1 mm, we also achieve an allowable tensile load of up to 2.5 kN, the increase in the outer diameter will be 3.8%, the increase in mass is 9.3% compared to the base version - by 2.2 kN. Those. the use of a patented solution makes it possible to halve the weight and diameter of cables in cables of this type by increasing its permissible tensile load.

Claims (4)

1. An armored optical cable containing at least one optical module in the form of a tube, inside of which at least one optical fiber and a hydrophobic filler are laid, an armored cover that is made in the form of fiberglass rods, and a sheath, characterized in that over the optical module, a power element of 4 aramid filaments with a linear density of 1580 dTex, laid longitudinally and fastened with a polyester filament, is superimposed. 2. The cable according to claim 1, characterized in that the tube of the optical module is made of a polymeric material - polybutylene terephthalate. 3. The cable according to claim 1, characterized in that the sheath is made of polyurethane. 4. The cable according to claim 1, characterized in that the sheath is made of non-combustible halogen-free polymer compositions.

Images