RU30197U1 - Ground wire container for underground communication cables - Google Patents

Description

Ground wire container for underground communication cables

The utility model relates to the field of measurement technology and can be used to control the insulation resistance of the outer sheath of communication cables, preferably during operation of the connecting and branching couplings of fiber optic cables (FOC) and electric armored communication cables laid in the ground.

A known method and device for monitoring the insulation of communication cables (1), according to which a control pair is isolated in the communication cable, sensors are connected to the control pair along the cable laying path in the couplings when splicing the building lengths of the cable, and a lowering indicator is connected to the control pair at the end of the cable.

Known control and measuring points (KIP) (2), installed in the immediate vicinity of mounted and laid in the ground couplings, are used for systematic monitoring of the state of the communication cable laid in the ground, and, above all, for control measurements of the electrical insulation resistance of plastic insulating coatings on top of the wok armor or electrical communication cable, the magnitude of the currents induced from electromagnetic radiation (EMP) in the wok armor and the removal of these currents to the ground using grounding conductors. Instrumentation, as a rule, contains a concrete column with an internal channel into which insulated wires connected to the instrumentation terminal board located in the upper above-ground part of the concrete column are laid, coming from the armored covers of the coupling and the ground electrode. The disadvantage of the known instrumentation (3) is its cumbersomeness, the complexity and laboriousness of mounting and installation in the trench laid for laying the cable, the high cost and scarcity, and most importantly, the installed and operated instrumentation are subjected to vandalism, are damaged or even pulled out of the ground, which violates the normal operation of existing lines

communication cables.

The objective of the utility model is to simplify the design and installation technology while maintaining the reliability requirements, eliminating a break in the communication line during an act of vandalism as applied to a signal concrete column, as a result, making it cheaper and more convenient to carry out installation work.

The specified technical result is achieved by the fact that the container of grounding wires for underground communication cables, containing a plastic casing in the form of a hollow glass, in the opening of which a headband is hermetically sealed, made with at least three nozzles for hermetically entering the sealed wires, and located inside the casing and fixed to the headband a plate of insulating material on which at least three terminals are located, the first terminal being able to connect to the wire the ground electrode is connected by means of, respectively, the first and second removable conductive jumpers with the second and third terminals, made with the possibility of connecting, respectively, through the first and second insulated wire with the armor cover of the first and second controlled communication cables.

In the case of monitoring the insulation resistance of the sheaths of the communication cables inside the junction box, the container may contain a fourth terminal connected to the first terminal with a removable conductive jumper and through a second insulated wire with an armor cover of the second communication cable.

Sealing of the junction of the headband and the body can be done using a heat-shrinkable tube or through a rubber sealing ring.

a longitudinal section of the proposed bullpen and the layout of the bullpen and optical couplings during operation.

The bullpen is made in the form of a dead end coupling and contains a plastic casing 1 in the form of a cylindrical hollow glass, in the opening of which a plastic ogolovnik 2 is sealed, made with at least three cylindrical pipes 3 for hermetically entering the sealed wires 4 and 5. A rectangular plate is located inside the housing 1 6 made of insulating material, which is rigidly fixed to the headband 2. At least three terminals 7, 8 and 9 are located on the plate 6. The first terminal 7, located in the center of the plate 6, is connected, for example, via a bolt, to a grounding conductor 4 for removing currents induced in the armor of an optical or electric or combined communication cable due to the effects of electromagnetic radiation (EMR) from a thunderstorm and connected to the second 8 and the third 9 terminals through respectively the first 11 and second 12 removable conductive jumpers. The second terminal 8 and the third terminal 9 are connected through respectively the first 51and the second 52 insulated wires with armored covers of the controlled communication cables, which are spliced inside the connect-one-shield, 18 .;

The container may comprise a fourth terminal 10 connected to the first terminal 7 by a removable conductive jumper 13 and through a third insulated wire 5c with an armor cover of the third communication cable inside the branch coupling.

Sealing the junction of the headband and the body can be performed using a heat-shrinkable tube 14.

In the particular case, the sealing of the coupling body with the headband can be performed using a mechanical screw-in unit (not shown in FIG.), Articulating their ends along the ring with the help of a rubber gasket compressing when making two joint rings or when putting on two

b

half rings with a figured groove and fastening on top of these half rings with a metal clamp compressing the rubber gasket and sealing the end parts of the casing and the sleeve of the coupling (BPC).

The sealed wires 4 and 5 are preferably made in the form of a multi-wire insulated copper wire of the GPP type with a cross section of a copper core of 4 mm. Wires 4 and 5 are sealed by their shells when introduced into the nozzles 3 of the headband 2 using pieces of heat-shrinkable tubes 15 (TUT). On the copper conductors of wires 4, 5 inserted into the casing 1, the crimped copper lugs 16 are made, which are connected, for example, by means of bolts with washers with the corresponding terminals 7, 9.10 on the plate 6.

The bullpen 21 is buried near the signal concrete column 17 in the ground - on (15-20 cm) in the immediate vicinity of the mounted connecting or branching clutch 18 of the optical or electric communication cable 19. The bullpen 21 can be placed in the section of the asbestos cement pipe 22 to increase the mechanical strength, which close with plugs 23. Wire 4 is connected to the ground electrode 20, i.e. it closes to the ground, and wires 5 are connected to the armored covers of the cables inside the coupling 18. To monitor the insulation resistance of the cable sheaths

dig a bullpen. Remove the casing 1 from the headband 2, conductive jumpers,

11,12,13 between terminals 7,8,9 are removed and it becomes possible to measure the electrical insulation resistance between the disconnected terminals of the bullpen.

Sources of information used:

1. French Patent No. 2629211

2. “General instructions for the construction of linear structures of urban telephone networks, approved by order of the Minister of Communications of the USSR dated May 6, 1977 No. 220, Moscow,“ Communications 1978. Section 14.2, page 373. ;.

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Claims (4)

1. A ground wire container for underground communication cables, comprising a plastic casing in the form of a hollow glass, in the opening of which an ogolovnik is installed hermetically, made with at least three nozzles for hermetically entering the sealed wires, and a plate of insulating material located inside the casing and fixed to the ogolovnik on which at least three terminals are located, the first terminal configured to connect to the ground wire is connected by means of respectively a pit and a second removable conductive jumpers with a second and third terminals, made with the possibility of connection, respectively, through the first and second insulated wire with an armored cover of the first and second controlled communication cables. 2. The container according to claim 1, characterized in that it contains a fourth terminal connected to the first terminal of a third removable conductive jumper and through a third insulated wire with an armor cover of the third monitored communication cable. 3. The container according to claim 1 or 2, characterized in that the sealing of the junction of the headband and the body is made using a heat-shrinkable tube. 4. The container according to claim 1 or 2, characterized in that the sealing of the junction of the headband and the body is made by means of a rubber sealing ring gasket.