RU2363063C1 - Optical communication cable - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: invention relates to the area of electric engineering; it can be used in makeups of optical cables while laying optical fibre communication lines. For the purpose of easy opening of optical core, removal of optical fibres, easy access to any optical fibre, reduction of recovery time in case of optical cable damage and protection from moisture penetration to optical fibres during optical cable repair each polymer tube with optical fibres is made in the form of C-shaped module with polymer load-bearing element located at the central load-bearing element; peaks of each C-shaped module are directed towards inner surface of inner polymer sheath; waterproof ribbons are located on top of peaks of each C-shaped module; ends of ribbons cover C-shaped module and directed to the central load-bearing element. Two cords tearing inner sheath are located symmetrically to each other and divide the sheath in half; thereat two protrusions at external surface of inner polymer sheath mark location of cords tearing inner sheath.

EFFECT: easy opening of optical core, removal of optical fibres, easy access to any optical fibre, reduction of recovery time in case of optical cable damage and protection from moisture penetration to optical fibres during optical cable repair.

1 dwg

Description

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

The known design of the optical cable (OK) type DPO, DNO for laying in cable ducts, blocks, in protective polyethylene pipes. It contains a central power element, a polymer tube with freely laid optical fibers (OV), a filling core, a hydrophobic compound, a fastening sheath made of plastic tapes, an outer polyethylene sheath (Reference “Russian-made optical communication cables”, A. Vorontsov, O. I. Gurin, S.Kh. Miftyakhetdinov, K.K.Nikolsky, S.E. Piterskikh, Eco-Trends, M., 2003, 285 p., Fig. 4.25, construction of DPO, DNO, p.146) .

The disadvantage of this design is the difficulty of access to the OB when the OK is damaged and its operation without damage and opening of most of the polymer elements, including polymer tubes with freely laid optical fibers.

Known for the design of optical cable (International Wire and Cable Symposium. Proceedings of the 56 IWCS, 2007, fig. 1, pp. 225. Ken Osato, Yoshio Hashimoto, Naoki Okado / New design of optical fiber cable for easy mid-span access, pp .225-229), containing optical fibers in polymer tapes, a hydrophobic filler, a C-shaped module, the main reinforcing element in this module, an additional force element in the outer polymer coating, a water blocking tape and two tearing outer sheaths of the cord located symmetrically relative to each other closer to the vertices of the C-shape module, two protrusions on the outer surface of the outer shells indicating the location of two cords tearing the outer shell.

The disadvantage of this design is the possibility of moisture penetration due to the removal of the water blocking tape from the C-shape of the module when accessing all the fibers at once, while access to one or more optical fibers is required.

The closest in technical essence is the design of OK (Reference "Optical communication cables of Russian production", A. S. Vorontsov et al., Eco-Trends, M., 2003, 285 p., Fig. 4.4.0, design OKSM (OKSN-N), p. 188), containing optical fibers in a hydrophobic filler in polymer tubes around a central power element, an inner polymer shell, armor made of steel wire coiled, waterproofing the armor layer, and the outer polymer shell.

The disadvantage of this design is the difficulty of access to optical fibers in case of damage to the OK and its operation without damage and opening most of the polymer and metal elements of the OK, which requires considerable time to restore the health of the whole structure as a whole.

The objective to which this technical solution is directed is to create such an optical communication cable design that will allow not only to easily open the optical core and get one of the optical fibers, but also reduce the time to repair damage to the OK and protect all OM during moisture repair OK.

To solve the problem in an optical communication cable containing optical fibers in a hydrophobic filler in polymer tubes around the central power element, the inner polymer shell and the outer polymer shell, in contrast to the prototype, each polymer tube with optical fibers is made in the form of a C-shape module with polymer power element located at the central power element, and the vertices of each C-shaped module are directed to the inner surface of the inner polymer shell, and on top of Water blocking tapes are located on each C-shape of the module, the ends of each of which close the C-shape of the module and are directed to the central power element, and two tearing the inner shell of the cord are symmetrically relative to each other and divide it in half, with two protrusions on the outer surface of the inner the polymer shell indicate the location of the tearing the inner shell of the cords, similarly on the same line with tearing the inner shell of the cords are two symmetrical relative to each other cords, tearing the outer polymer shell with two protrusions on the outer surface of the outer polymer shell, indicating their location, while these protrusions on both the inner and outer polymer shells are intermittent at certain intervals along the entire length of the cable, in addition, in the inner polymer shell against Each C-shaped module has additional power elements integrated, and the gap between the inner and outer polymer shells is filled with a hydrophobic aggregate.

The drawing shows the design of the optical cable. It contains optical fibers 1 in a hydrophobic aggregate 2 in polymer C-shaped modules 3 around a central power element 4, an internal polymer shell 5 and an external polymer shell 6, a polymer power element 7 in each C-shaped module 3, water blocking tapes 8 on each C - forms of module 3, two tearing the inner shell of the cord 9 with protrusions 10 on the outer surface of the inner polymer shell 5, two tearing the outer shell of the cord 11 with two protrusions 12 on the outer surface of the outer polymer shell olnitelnye bearing elements 13 on the inner polymer shell 5 against each C-3 form a module.

As a result, if the OB in the cable fails using two cords, the location of which is indicated on the outer surface of the outer polymer sheath of the cable by two discontinuous protrusions, the upper half of the outer shell is opened, then using two cords whose location is indicated on the outer surface of the inner polymer sheath, the inner half is opened the polymer shell, then the water blocking tape is removed from one C-shape of the module and the damaged fiber is taken out, the necessary repair of the OM is carried out, it is installed this fiber is in the module, a water-blocking tape is put on the C-shape module, the inner shell is closed and its tightness is restored, then the outer shell is closed and its tightness is restored. This significantly speeds up the process of restoring the working capacity of the OM and OK without disconnecting the line and without the penetration of moisture to the OM due to the presence of a water blocking tape on each C-shaped module, the location of the C-shaped module with its peaks to the inner surface of the inner polymer shell, hydrophobic aggregate, and the speed of recovery works due to the openness of the C-form of the module.

Claims (1)

An optical communication cable containing optical fibers in a hydrophobic filler in polymer tubes around a central power element, an inner polymer sheath and an outer polymer sheath, characterized in that the polymer tubes with optical fibers are made in the form of C-shaped modules with polymer power elements in each C- forms of the module located at the central power element, and the vertices of each C-shape of the module are directed to the inner surface of the inner polymer shell, and on top of the vertices of each C-pho The module’s frame is equipped with a water-blocking tape, the ends of which are directed to the central force element, and two tearing the inner polymer shell of the cord divide it in half, while two protrusions on the outer surface of the inner polymer shell indicate the location of the tearing of the inner polymer shell of the cord, similarly in line with the tearing of the inner shell cords are two symmetrically located cords tearing the outer shell with two protrusions on the outer surface of the outer polymer th shell, indicating their location, while these protrusions both on the inner polymer shell and on the outer polymer shell are intermittent at a certain interval along the entire length of the optical cable, in addition, power elements are built into the inner polymer shell opposite each C-shape module and the gap between the inner and outer shells is filled with a hydrophobic aggregate.