RU2537705C2 - Composite design of symmetrical and optical communications cable - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: design includes optical fibre in polymer ribbons, a water-repelling filler, e-shaped module with the median dividing the module into two chambers with two extreme vertices connected to the median, the main reinforcing element in this module, the first auxiliary power element in external polymer coating, a water-blocking ribbon placed along inner surface of the external shell with edges overlapping, two cords tearing the external shell, which are placed symmetrically to each other closer to the module vertices and designated as protrusions at external surface of the external shell. The invention introduces a symmetric copper pair at a polymer ribbon placed over the median of the e-shaped module and junction of its two extreme vertices at the median, at that the polymer ribbon of the symmetric pair is applied with edges overlapping.

EFFECT: easy opening of the optical core, removal of optical fibre, significant reduction of moisture penetration to optical fibre, reduction of time for damage recovery at the optical cable and protection from moisture and mechanical damage at optical fibre during repair of the optical cable.

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Description

The invention relates to the field of electrical engineering and can be used in combined designs of symmetrical and optical communication cables for the construction of office access networks, public networks and special private networks.

The known design of the optical cable (OK) for laying in pipes and collectors with a centrally located module (DV Iorgachev, OV Bondarenko, AV Dashchenko, AV Usov. Fiber optic cables. Odessa, " Astroprint ”, 2000, 536 p., P. 155 fig. 3.32). It contains a module tube, power elements in a polymer shell - a protective hose made of polyethylene, a water blocking tape over the module tube and a tape with optical fibers placed in the central module.

The disadvantage of this design is the inaccessibility to optical fibers (OV) when OK is damaged and its operation without damage and opening of all cable elements, and hence, a lot of time to repair cable damage, the absence of symmetrical pairs in the structure.

The well-known design of OK ZAO Moskabel-Fujikura with a single-module optical core with a central module of a tubular type (Reference book “Optical communication cables of Russian production.” AS Vorontsov, OI Gurin, S.Kh. Miftyakhetdinov, K.K. Nikolsky, S.E. Piterskikh, Eco-Trends, M. 2003, 285 p., Fig. 4.10, p. 98). The design contains optical fibers in a hydrophobic filler in a central polymer tube, steel corrugated armor, and steel wires in an outer polyethylene sheath.

The disadvantage of this design is also the difficulty of access to optical fibers when the cable is damaged and during its operation, as well as a long time to repair cable damage, as well as the absence of symmetrical pairs in the structure.

Known design of optical cable (International Wire and Cable Symposium. Proceedings of the 56th 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 cord cords located symmetrically relative to each other. Closer to the tops of the C-shape of the module are two protrusions that change the circular shape of the cable, indicating the location of two cords breaking the outer shell. This optical cable design eliminates some of the disadvantages, i.e. gives access to damaged fiber.

The disadvantage of this design is the possibility of moisture penetration to all optical fibers due to the removal of the cover with a water-blocking tape of the C-shape of the module, if necessary, access to optical fibers and also a sufficiently long time to repair the damage of organic matter in OK, although it is less than in analogues, but it does not It has optical fibers that protect against symmetrical damage and moisture penetration of symmetrical pairs for fixed and office telephony.

The well-known hybrid cable for internal laying of the company TELDOR 2006, www http://teldor.com, teldor mailto: Russia@yahoo.com., P. 203. The cable contains two optical fibers in a secondary buffer coating (900 μm), which are protected by dielectric reinforcing threads and form two fire-resistant minicables, one symmetrical (twisted) pair. Optical mini-cables and a symmetrical pair are twisted into a common bundle and wrapped in a connecting polymer tape, forming the core of the cable. The cable core is also protected by aramid threads to increase resistance to mechanical stress, in particular tensile forces. A polymer shell is superimposed on top. Given the small number of OMs and mini-cables, access to optical fibers requires removal of the polymer shell and the unwinding of the core bundle, and in the presence of a large number of OMs it can damage one of the OMs. Protection against mechanical damage is solved using a large number of aramid threads, and a symmetrical pair performs only its functions of transmitting information.

The objective this technical solution is aimed at is creating such a combined design of a symmetrical and optical cable that contains optical fibers and symmetric pairs in a single module that protect this module from mechanical damage and moisture penetration, and will not only easily open the optical core and to get one of the optical fibers, and significantly reduce the risk of moisture penetration to the optical fibers, reduce the time to repair damage to the OK, and as much as possible schitit optical fiber from mechanical damage and the ingress of moisture during repair OCs OB, but also to have in its structure to include a pair of symmetrical stationary telephone and intercom.

To solve the problem in an optical cable containing optical fibers in polymer tapes, a hydrophobic filler, an E-shaped module with a middle vertex dividing the module into two chambers with two extreme vertices connected to the middle vertex, the main reinforcing element in this module, the first additional a power element in the outer polymer coating, a water blocking tape located on the inner surface of the outer shell with overlapping edges, two tearing the outer shell of the cord, located symmetrically relative to each other closer to the vertices of the module and marked on the outer surface of the outer shell in the form of protrusions, a symmetric copper pair is introduced in the polymer tape located above the middle peak of the E-shape of the module and above the connection of its two extreme vertices at the middle peak, while the polymer tape is symmetrical pairs superimposed with overlapping edges along the entire length of the cable.

Figure 1 shows the design of the optical cable. It contains optical fibers 1 in polymer tapes 2, hydrophobic aggregate 3, two-chamber E-form module 6, the main reinforcing element 7 in this E-form module 6, the first additional power element 7 in the outer polymer coating (shell) 10, water blocking tape 9 located along the entire length of the inner cross section of the outer shell 8, a symmetrical pair 12 above the middle peak of the E-shape of module 6, a polymer tape 11 with overlapping edges along the entire length of the cable, into which a symmetric pair 12 is placed, two tearing the outer shell of the cord 4 and 13, p memory location symmetrically relative to each other closer to the tops of the module E-forms and two projections 5 and 14, indicating the location of the two tearing the outer sheath cords.

As a result, in the event of an OM failure in the cable using cords, the location of which is indicated by protrusions on the outer surface of the outer shell, the upper part of the cable is opened in the area determined by the measurements and the upper part of this shell is removed, a water-blocking tape is opened, a symmetric pair rises in the polymer tape, fixing the two extreme peaks on the middle peak of the E-form of the module and one of the cameras of the E-form of the module, in which the damaged fiber is located, opens, the damaged tape with the damaged fiber , You are replacing OM in the tape is put in place and closes the open camera module e-form is lowered into place symmetric pair in the polymer tape, fixing the extreme top of the E-shaped unit on the center top, closed water blocking tape and restored the outer shell. This allows you to speed up the process of restoring the operational efficiency of the exhaust agent without disconnecting the line and without moisture entering the OK in one of the chambers of the module’s E-shape due to the presence of a water blocking tape in the inner surface of the cable’s outer coating, hydrophobic filler and speed of restoration work, and protecting against mechanical damage from moisture penetration into the cameras of the E-form of the module, a symmetrical pair can be temporarily used for official communication with the station, as well as for a landline telephone at the subscriber. Its connection does not lengthen the cable recovery process even if it is temporarily used for official purposes due to easy access to the pairs and their additional isolation in the future.

Claims (1)

The combined design of a symmetrical and optical cable containing optical fibers in polymer tapes, a hydrophobic filler, an E-shaped module with a middle vertex dividing the module into two chambers with two extreme vertices connected to the middle vertex, the main reinforcing element in this module, the first additional power an element in the outer polymer coating, a water blocking tape located on the inner surface of the outer shell with overlapping edges, two tearing the outer shell of the cord, located symmetrically relative to each other closer to the vertices of the module and marked on the outer surface of the outer shell in the form of protrusions, characterized in that a symmetrical copper pair is introduced into the polymer tape located above the middle peak of the E-shape of the module and above the junction of its two extreme vertices at the middle peak, wherein the polymer tape of the symmetrical pair is superimposed with overlapping edges along the entire length of the cable.