RU2174250C2 - Terminator for optical cable with sealed unions for lead-in of optical cables and with sealed conductors-leads from armour to grounding rod - Google Patents

Abstract

FIELD: optical cables. SUBSTANCE: the terminator has an enclosure, shell with a bracket and cartridges for modules and optical fiber, head structure with large pipe connections receiving the unions individually installed and sealed on the optical cable, from which leads of a copper insulated conductor to the grounding rods are made inside the terminator via the contact plates from the fastening assemblies of sealed wires. The lead-in unions may be mounted both on optical cables with metal cables with armoring covers of synthetic threads or glass plastic rods, i.e. both optical cables of the same type (optical cables with metal armoring covers or suspended optical cables with synthetic power elements) and optical cables of different types may be spliced with the aid of the unions. The union that is individually mounted and sealed on the optical cable provides for an additional lead-in of one more optical cable even to an operating cable box. EFFECT: enhanced reliability of the assemblies. 2 cl, 7 dwg

Description

 Usage - fiber optic communication lines.

 The inventive coupling consists of a cylindrical body, closed from one of the ends (sleeve casing), a headband with fittings for inputting the connected ends of the optical cables (OK) and cassettes for placing a reserve stock of optical fibers (OV) and their splices. The ends of the OK, to be connected (branching) in the coupling, after their appropriate preparation (cutting), are sealed in special collapsible fittings, which are then inserted into the nozzles of the headband and securely fastened and sealed in it by heat-shrinkable tubes (TUT) over the outer shell of the OK and fingers of the headman. OK sealing in fittings, including between steel armor wires, is carried out using special sealing tapes, crushed when pinching armor wires between the conical surfaces of the inner sleeve and the outer cone of the nozzle when the nozzle shaft is screwed onto it. The reserve stock of optical fibers and their splices are installed on the OB cassettes and all the cassettes are mounted on an arm, the metal rods of which are inserted into the holes of the shell located in the inner space of the coupling headband. The sealing of the casing of the coupling with the headband is carried out by TUT tubes.

 The invention relates to fiber optic technology and can be used for splicing construction lengths of trunk, intrazonal and urban optical communication cables.

 A dead-end clutch is known (patent N 2097806, filed November 27, 1997) for an optical cable with a sealing assembly, comprising a housing in which cassettes with slots for fixing fiber splice fixings of the optical cable are installed, and a sealing assembly inserted into the OK coupling containing a cavity formed a cover and a flange and filled with a sealing compound, the cover being made with an opening for introducing into the cavity of the sealing composition and a stopper for sealing it, and the flange is made with fingers in which the holes for optical input are made one cable.

 A disadvantage of the known coupling is that such a design of the coupling with a common sealing chamber for the input optical cables does not allow additional OK to be added (branching of another OK to the appeared consumer during operation of this cable communication line), eliminates the possibility of remounting or repair of the connected ends of OK and does not have lead-out conductors from the armored cover OK to the ground electrodes - for the removal of currents induced from a thunderstorm to the ground, and for the fulfillment of periodic con field tests (measurements) of the electrical insulation resistance of the outer polyethylene sheath OK.

 The aim of the invention is to increase the reliability of the nodes of the input of optical cables into the sleeve with their individual sealing in the inlet pipes, the development of a sealed fitting connected with OK, allowing, if necessary, to bring into the sleeve one (branching) of the same or different type of optical cable and to carry out the sealed output copper insulated wire from steel wires of armor OK - output to instrumentation (instrumentation).

 A dead-end connector for an optical communication cable is proposed, comprising a housing, a shell and a bracket in which cassettes with lodges are installed to fix the splice of the optical fibers of the optical cable, as well as a headband, characterized in that the headband contains common metal and insulating plates and nozzles for input the connected ends of the optical cables, while through the large diameter holes in the common metal and insulating plates and through the large diameter nozzles of the headband, ind sealed on an optical cable made with round-wire armor, or with corrugated steel tapes, or with synthetic armor-plated, fittings with armored assembly, each fitting installed in the holes of a contact metal plate, personal for each fitting, each made with copper attachment points sealed ground wires located in the nozzles of the small headband, and on contact metal plates located on a common To the plate, metal bushings are installed under the screws for fastening the contact plates to a common metal plate, which electrically connect the nodes of the armor plates (nipple) of the spliced ends of the optical cables, or insulating sleeves for screws that attach the contact plates to a common metal plate to electrically isolate the nodes of the armor plates (fittings) each other from friend.

 The design of the coupling, in the headband of which metal sleeves are mounted on the contact metal plates under the screws for fastening the contact plates to the common metal plate, which make electrical connections between the armor plates (fittings) between each other through this metal plate, provides sealed copper wires and their mounts to the contact metal sealed output plates to grounding (or instrumentation).

 The design of the coupling, in the headband of which insulating sleeves are mounted on the contact metal plates for the screws of the contact plates to the common metal plate, and thus, in the attachment points of the ground wires, electrical isolation of the armored parts (fittings) from each other is performed with the simultaneous removal of its own output copper insulated wire to grounding conductors or instrumentation, allows the construction of a cable communication line to divide this line into separate sections of OK, the cover in which the coupling is electrically isolated from each other, but each of them is electrically connected to ground at the ends of the line sections through the output conductors in the couplings, and thereby it is possible to reduce the magnitude of the EMF induced from the thunderstorm in the armor of the OK and ensure the removal of the induced in armor of OK pulses of currents from a thunderstorm, and, without opening the coupling during operation of the cable line, it is possible to monitor the state of electrical insulation of the outer plastic shell of the OK in any direction from the coupling.

 The proposed coupling consists of a cylindrical casing muffled on one side (casing) 1, shell 2 for mounting the rods of the bracket 3 with a cartridge for modules 4 and cassettes for OV 5, headband 6 with sealed fittings 7 - nodes armored 15 (input OK), output nodes 8 stranded copper insulated wires 9 on the instrumentation through small nozzles 10, moreover, the casing with the headband is sealed with heat-shrinkable tubes (TUT) of large diameter 11, large nozzles 12 of the headband 6 over the protruding parts of the fittings 7 with optical eskim cable (OC) 13 - here the average diameter 14 of the lead wires 9 and the small nozzles 10 performed HERE 16 of small diameter.

 In the head of the clutch 6, two plates are located one above the other - the common metal 17 at the bottom and the general insulating 18 with holes for the input of metal fittings 7 with a sealed seal in them of the ends connected OK 13. The upper part of the fitting 7, threaded through the large inlet pipe 12 of the head 6, through the holes in the common metal 17 and the general insulating 18 plates, through the hole of a larger diameter metal personal for each fitting of the contact plate 19, is fixed in the headband 6 with a nut 20 with a spring washer 21 so o the thickened lower part of the fitting 7 abuts against the end of the inlet large branch pipe 12 of the headband 6. A small insulated copper conductor 9 is inserted through the small inlet pipe 10 of the headband 6 and through the small diameter hole in the contact plate 19, the fluffy cores of which are attached to the contact core with a special plate 22 with two screws 23 metal plate 19.

 In FIG. 1 - 7 shows the proposed coupling and its aforementioned parts 1 to 39, including OK 13 and the output longitudinally sealed multi-wire copper insulated conductor 9.

 The casing 1 with an annular protrusion 24 on the open end and a headband 6 with the same annular protrusion 25 on their end cylindrical part are joined together along the end cylindrical parts and are fixed between themselves by two patch half rings 26, which snap into the ring protrusions 24 and 25 until they shrink HERE of large diameter 11.

 Each inlet fitting 7 (Fig. 2) contains: a fitting body 27, an inner cone 28, an outer cone 29 of the fitting 7, a nut 30 with a spring washer 31 for fixing the fitting body 27 in the headband 6, a union nut 32 with a washer 33 (for sealing on exit from the fitting through the intermediate shell 34 OK) and a plastic adapter cone 35. Longitudinal sealing according to OK 13 in the fitting 7 is performed using special mastic tapes 36 and is made in two places: at the end of the inner cone 28 along the intermediate shell 34 OK and at the exit of fitting body 27 when screwed on SRI it union nut 32 which presses the mastic tape 36 wound around the intermediate sheath 34 through a washer 33 (FIG. 4).

 The mounted inlet fitting 7 contains (Fig. 5): an attachment point of an armored cover OK and an attachment point of an earth wire. The attachment of grounding wires can be performed in two versions: 1) fastening with screws 37 of metal contact plates 19 to a common metal plate 17 through metal sleeves 38, 2) fastening with screws 37 of metal contact plates 19 to a common metal plate 17 through insulating sleeves 39. Bushings 38 and 39 are the same size and differ only in material. In the first embodiment, the attachment points of the ground wires are electrically interconnected (short-circuited) with the fastening screws 37 through the steel bushings 38 of the metal contact plates 19 onto a common metal plate 17, and in the second embodiment, each armored assembly of the inlet fitting and, accordingly, the attachment point of the ground wires are electrically isolated by bushes 39 from each other and at the same time has its own output sealed outlet to the ground electrode or instrumentation, which during operation will allow to carry out without opening the clutch warning light condition of protective covers OK in each direction of the clutch.

 A design variant of the inlet fitting for mounting a suspended OK with armored covers made of synthetic threads is shown in FIG. 6. Due to the absence of metal power elements in the design of the suspended OK, the fixing of the fittings in the sleeve of the coupling is modified — metal and insulating plates to which the upper part of the fitting body is fixed in the coupling, as illustrated in FIG. 7. According to their overall dimensions, the fittings are made so that, if necessary, it is possible to insert fittings with different types of OK into the nozzles of the headband, i.e. there is the possibility of splicing not only the same type (OK with metal armored covers or OK suspended with armored covers made of synthetic fibers, fiberglass rods), but also different types of optical cables (OK suspended with OK for laying in the ground).

 Using the input fittings, it is possible to mount optical cables 1; 2; 3 and 4 types (OK submarine with two coils of steel armor wires and an allowable tensile force of up to 80 kN, OK trunk with armored covers of steel wires and a tensile force of up to 20 kN, OK suspended with synthetic power elements or fiberglass rods with a tensile force of up to 7 kN, urban OK with steel corrugated tapes with tensile forces up to 2.7 kN).

 Brief clutch mounting technology.

 Before mounting the coupling, the OK ends to be connected must be cut out, they are pre-dressed: TUT segments of medium diameter for sealing over the fittings of the inlet branch pipes of the headband with the OK shell, a plastic transition cone and an outer cone.

 Each inlet coupling sleeve, as well as in the case of an additional input OK (additional OK), is mounted and sealed in the intermediate shell OK individually outside the sleeve, and then, stretching the cut end OK through the inlet nozzle of the headband, is inserted with its upper part through large holes in a common metal, common insulating plate and a large hole personalized for each fitting of a metal contact plate, after which it is fixed in the headband with a nut and spring washer and at the same time thickened by zhnyaya part of the rod abuts against the nozzle opening face of the nozzle end cap.

 After that, the cut ends of the copper output wires are inserted through the small nozzles of the headband so that the insulation of the wire cut along the ring when the copper multi-wire core of the wire passes through the small hole of the metal contact plate of the fitting abuts against the bottom of the contact plate from below, and the wires of the multi-wire core at the outlet from the hole are distributed by a fan and fixed with a round metal plate with a protrusion using two screws.

 Then, the bracket rods are inserted into the holes of the shell and the reserve stock of modules is laid in the module cassette, and then the reserve stock of OM and its intergrowths are laid in the OM cassette.

 The final stage of installation is the shrinkage of heat-shrinkable tubes: HERE of small diameter - on the nozzles with copper output insulated and longitudinally sealed conductors, HERE of the average diameter - on the nozzle of the headband over the inserted fittings for external sealing on the shell OK, HERE of large diameter - to seal the casing and the head of the couplings.

 The proposed design of the coupling allows you to: perform splicing, both OK with an armor cover made of steel wires, including OK of the first type (with two windings of round-wire armor), and suspension (dielectric) OK, to place a large number of OM splices on disposable lodgements of cassettes with the necessary along the length of the reserve stock of modules and optical fibers, to output from the armored cover of the clutch of sealed wires to grounding conductors or measuring instruments for monitoring the condition of the outer shell OK, and ie, if necessary, to produce in the clutch dovvod another OK.

Claims (2)

 1. A coupling of a dead end type for an optical communication cable, comprising a housing, a shell and a bracket in which cassettes with lodges are installed to fix the splice of the optical fibers of the optical cable, as well as a headband, characterized in that the headband contains a common metal and insulating plate and nozzles for the input ends of the optical cables to be connected, while individually inserted through large diameter holes in the common metal and insulating plates and through the branch pipes of large diameter sealed on an optical cable made with round-wire armor, or with corrugated steel tapes, or with synthetic armored cover, a fitting with armored knots, each fitting installed in the holes of a contact metal plate, each of which is made with attachment points of copper sealed ground wires located in the nozzles of the headband of small diameter, moreover, metal sleeves are installed on the contact plates under the screws for fastening the contact plates to the common metal eskoy plate that electrically connects the nodes bronezadelok (fitting) the spliced ends of the optical cables or grommets for fastening screws of the contact plates to a common metal plate for electrically insulating bronezadelok nodes (fittings) apart.  2. The coupling according to claim 1, characterized in that in the nozzle of the headband there are mounted fittings with nodes of the armor plates of the optical cables with dissimilar armor covers and a third splitter optical cable is added.

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