RU2037852C1 - Optical communication cable - Google Patents

Abstract

FIELD: fiber-optic communication lines. SUBSTANCE: optical communication cable has central armoring element, isolation layer of armoring element, optical fibers mounted in modules, external plastic envelope, elements for breaking external plastic envelope down, elements for breaking isolation layer of plastic armoring element down. The elements are made in form of metal wires. Cable also has protection cover. The elements and the modules are mounted with twist up to central armoring element inside isolation layer of central armoring element, isolation layer of central armoring element and modules correspondingly. EFFECT: improved reliability of operation. 1 dwg

Description

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

 A known construction of an optical cable [1] in which optical fibers (OB) are placed inside the modules around a central reinforcing element, on top of which is a protective sheath, on top of which reinforcing elements are applied so that their mutually adjacent side surfaces with longitudinal grooves are located one against the other, forming closed chambers in which elastic sealing cords are embedded. On top are metal reinforcing wires.

 The design drawback is the inability, if necessary, to release the optical fibers without damaging the remaining elements.

 The closest in technical essence is the cable structure [2] containing optical fibers, segment grooves, an insulating layer of the central reinforcing element, the central reinforcing element, elements for ripping the outer plastic shell, the outer plastic sheath. Elements for opening the outer plastic shell serve to remove the outer plastic shell.

 The design drawback is that if the OK is damaged, access to the optical fiber is required, which is very difficult to perform without damaging the cable itself.

 Only optical fibers become available, and the remaining elements can be destroyed. In addition, when searching for damage, it is necessary to organize an official communication, which is also impossible to perform.

 The aim of the invention is the creation of such a design that allows easy access to all elements of the optical cable with the simultaneous organization of official communications.

For this, an optical communication cable containing a central reinforcing element, an insulating layer of the central reinforcing element, optical fibers, an outer plastic sheath and an element for tearing the outer plastic sheath, a protective sheath is introduced under the outer plastic sheath, and the optical fibers are placed in modules on top of which an element for tearing the outer plastic shell; an element for tearing the insulating layer of the central reinforcing element is introduced on top of the central reinforcing element, the modules and the element for tearing the outer plastic shell are placed with a twist over the respectively insulating layer of the central reinforcing element and modules, and the elements for tearing the outer plastic shell and the insulating layer of the central reinforcing element the form of metal cores with a diameter of d ₁ satisfying the condition
d ₁ / d ₂ = n, where n 1, 2, 3;
d _{2 is the} outer diameter of the optical fiber, and with a twisting step exceeding the twisting step of the optical fiber modules by a factor of K, where K is an integer of 2-4.

 The drawing shows the design of the optical cable.

 The optical communication cable contains optical fibers 1, modules 2, an insulating layer 3 of the central reinforcing element, a central reinforcing element 4, elements 5 for tearing the outer plastic sheath and the insulating layer of the central reinforcing element, made in the form of metal cores, a protective sheath 6, an outer plastic sheath 7.

 The design works as follows.

 If it becomes necessary to free the OK elements over a short length, it is enough to pull the wires 5 in the cable cross-section with a special device and the plastic insulating layer is removed from the central reinforcing element 4 and the insulating layer of the central reinforcing element, the protective sheath 6 and the outer plastic sheath are cut 7 and the optical fibers 1 are released in the modules 2 without damage and the central reinforcing element 4 is made of fiberglass or metal.

 In this case, the sequence of the release of elements OK 1 and 4 is performed from the outer core 5 OK after removal of OB 1, the central reinforcing element 4 is released.

 An example of the implementation of the design.

 The optical core of the cable with an optical fiber with a central reinforcing element with a diameter of 2 mm, over which a copper conductor with a diameter of 0.3 mm, is applied in increments of 600 mm, an insulating layer of a central reinforcing element is applied over it, the thickness of which is 0.8 mm, the total diameter of the central element is 3.6 mm, then optical fibers are superimposed in modules with a total diameter of 2 mm, on which a copper core with a diameter of 0.3 mm is also applied with a pitch of 800 mm, then a protective sheath is applied in the form of a winding tape 0.2 m thick .

The following is the outer plastic sheath of the cable made of polyethylene with a thickness of 2 mm. The total cable diameter is 12 mm. In this case, before opening the cable elements, it is possible to organize official communication on copper conductors with a diameter of 0.3 mm; the resistance of a copper core with a diameter of 0.3 mm is R _m 216 Ohm / Km DC. The attenuation of the circuit at 3 kHz is 3.66 dB / km. The attenuation of the 2-wire ground circuit will be 2 dB / km. The attenuation between the two subscribers will be 30 dB, given that the _microphone R 10 ^-3 W microphone power; R _phone 10 ^-6 W phone power.

 In this case, the distance at which it is possible to organize service communication on the tonal channel of the system 2 veins of land is 15 km.

 The cable design allows you to free the elements of the optical cable without damage and organize service communication on the desired site.

Claims (1)

OPTICAL COMMUNICATION CABLE, comprising a central reinforcing element, an insulating layer of a central reinforcing element, optical fibers, an outer plastic sheath and an element for ripping the outer plastic sheath, characterized in that a protective sheath located under the outer plastic sheath, an element for ripping the insulating layer is inserted a central reinforcing element installed with twisting over the central reinforcing element inside the insulating layer of the central reinforcing elements, modules, in each of which optical fibers are placed, wherein the modules and the element for tearing the outer plastic shell are twisted over the insulating layer of the central reinforcing element and modules, and the elements for tearing the outer plastic shell and the insulating layer of the central reinforcing element are made in the form of metal cores with a diameter of d ₁ satisfying the condition
d ₁ / d ₂ n,
where n 1, 2, 3;
d _{2 the} outer diameter of the optical fiber,
and a twisting step exceeding the twisting step of the modules by a factor of k, where k 2, 3, 4.

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