RU65305U1 - UNDERGROUND CLUTCH FOR ELECTRICAL CABLES FOR ALARM, CENTRALIZATION AND LOCKING - Google Patents

Abstract

Underground branching clutch for electrical cables for signaling, centralization and blocking (STB) is designed for branching from a group cable to traffic lights, track and transformer boxes of rail circuits, to turnout drives and other devices. The housing (1) is made detachable, consisting of two halves (4, 5), of high-strength insulating material, for example, polypropylene. The housing (1) of the coupling is sealed with a compound having hydrophobic properties. Cable entries (8) are located at the junction of the halves (4, 5) of the housing (1) and are made for seven branches from the group cable. Installation sites (9) are installed for fixing, wiring and switching during the installation and remounting of cable cores. Each installation site is designed for 16 incoming and 16 outgoing cores. The total number of installation sites (9) is seven, determined by the number of outgoing cables: each branch cable will be mounted on a separate installation site (9). A radio marker (10) is installed to localize the location and fix the geographical coordinates of the coupling. Due to the constructive implementation of the coupling, the reliability of switching cable conductors and the adaptability of the installation process of an underground clutch for maintenance-free signaling systems are improved.

Description

The utility model relates to cable technology, namely, to the operation, repair and new construction of cable networks for signaling, centralization and blocking (STB) and can be used in equipment and fittings for cable lines and networks of railway automation and telemechanics for underground cable laying. The coupling is designed for branching from a group cable to traffic lights, track and transformer boxes of rail circuits, to switch electric drives and other devices.

Known equipment and fittings for cable lines and networks of automation and telemechanics, which include universal end and bushings, group branching couplings (Markov MV "Linear structures of railway automation, telemechanics and communications", M., Transport, 1973, p. 170-174).

Group branching sleeves are designed for branching a group signal cable into individual cables and are made of three types depending on the cable capacity. The group cable is inserted into the coupling through the central hole, and individual cables through the lateral holes located around the circumference of the coupling.

However, these varieties of cable couplings, in connection with their ground installation, do not provide protection from weather conditions, external physical influences and unauthorized access to the coupling connection. In practice, sufficient sealing of the coupling housing and the cable conductor joints is not achieved. The technology of splicing cable cores does not provide the necessary durability of the connection, while these varieties of cable joints require a high frequency of service.

Also known is "Cable modular coupling" (utility model patent No. 25122, Н02G 15/08, prior. April 24, 2002, publ. September 10, 2002). It is made up of individual blocks containing a housing with a lid cast from cast iron, as well as terminal blocks, pipes for cable entry. Moreover, on the case of each of the blocks there are protrusions in the form of tides for bolting. Coupling in

Depending on the number of modules to be dialed, it can be used as an end, feed-through or junction box, thus it is a universal type-setting modular cable box for all types of connections and switching of signaling and signaling cables.

This coupling is mounted on a metal foundation. The ground location of the coupling leads to corrosion of the contact pins of the terminal blocks and, as a result, loss of electrical contact. In addition, there is no sealing of the case, it is difficult to install and remount the cable cores. Thus, the coupling has limited use.

The closest in technical essence and the achieved effect to the claimed utility model is “A branch coupling for branching low-frequency conductive wires from a combined copper-optical communication cable with a transit passage of optical fibers and high-frequency conductive copper conductors” (RF patent No. 2228568, Н02G 15/18 , prior July 16, 2002, published May 10, 2004). The invention relates to underground laying of a combined copper-optical communication cable and is intended to branch low-frequency conductive wires from the combined cable on its uncut construction length using an additional low-frequency communication cable with copper conductors. The technical result of the invention is to expand the functionality of the device and increase the mechanical strength of the coupling during its underground installation. The coupling contains a detachable housing made of paronite and splices of low-frequency conductive copper conductors located in the housing in insulated polyethylene sleeves, while in the case on the aluminum-polyethylene sheath of the branch cable with conductive low-frequency veins and the aluminum-polyethylene sheath of the input and output sections of the combined communication cable, connectors are connected to each other another with at least one copper wire or aluminum busbars, preferably 2.5 mm thick, p In the casing, over aluminum splices of conductive conductors, optical fibers, conductive copper conductors and sections of aluminum-polyethylene cable sheaths with connectors, a winding of aluminum foil was made.

However, when mounting couplings of this type, individual or group connectors with mortise contact are used for splicing cable cores. Due to the fact that the current values in the signaling cables are significantly larger than in the cables

connection, when using connectors of this type, over time, the contact point is destroyed and, as a result, an unacceptable transition resistance. This device is used only for branches of low-frequency conductive copper conductors with a diameter of 0.7 mm from a copper-optical communication cable. The design of the coupling does not involve a device of up to seven branches from a group cable, in addition, the installation and re-installation of cable cores is difficult, so this device has limited functional use. Also, there is no system for the operational search and localization of the location of the hidden underground clutch.

The task to which the claimed utility model is directed is to expand the functionality, increase the life of the coupling by eliminating the need for periodic inspection and maintenance.

The technical result that can be obtained using the utility model is to increase the reliability of switching cable cores, as well as to increase the manufacturability of the process of installation and operation of the coupling.

The problem is solved due to the fact that in the branching clutch for signaling, centralization and blocking for electrical cables, comprising a detachable case of two halves with sealed cable entries, and splices of cable cores in the individual insulation located in the case, the case is made of high-strength insulating material, for example polypropylene. It is additionally sealed with a compound having hydrophobic properties. In addition, the cable entries located at the junction of the housing halves are made for seven branches from the group cable. In addition, installation sites have been introduced for fixing, wiring and switching cable cores, the installation of a radio marker and the use of the GPS system allows localization of the location and fixation of geographical coordinates.

Thus, the achievement of the technical result is achieved through the use of new modern materials in the execution of the coupling body and its elements, new structural elements, for example, mounting sites, radio markers. The localization and marking system will not only allow you to quickly find the coupling, but also provide topographic characteristics to the passports of the cable network elements. Improves the processability of the installation process thanks to

improvement of the processes of installation and remounting of cable cores through the use of mounting racks installed on the designated installation sites. Thus, the quality of installation, construction and operation of branching couplings for signaling cable lines is improved by creating this underground maintenance-free coupling.

The essence of the utility model is illustrated by drawings. Figure 1 presents the General scheme of the clutch branching underground; figure 2 - design of the appearance of the coupling; figure 3 presents the appearance of the open coupling; figure 4 presents the design of the mounting sites in the sockets; figure 5 - localization of the clutch using a passive radio marker and the device - marker.

Underground branching clutch for electrical cables for alarm, centralization and blocking (Fig. 1) consists of:

coupling housing - 1;

assembly sites - 2;

sealed cable entries - 3.

The appearance design (figure 2) consists of the following elements:

the upper half of the coupling body 4;

lower half of the coupling body - 5;

filler neck for a hydrophobic sealing composition - 6;

attachment points - 7;

cable entries - 8.

The placement of the mounting sites is presented in the form of an open coupling (figure 3):

assembly site - 9.

Installation of mounting sites in the sockets is presented in figure 4:

assembly site - 9;

bracket with locking slots - 10.

In accordance with figure 5, localization of the location of the underground cable box:

mounted cable box - 11;

radio marker - 12;

marker detector - 13.

The housing 1 of the coupling is made of high-strength polypropylene and consists of two parts 4 and 5, identical in overall dimensions, which are connected to each other by means of bolts. Overall dimensions - 380 × 270 × 150 mm. The coupling is located underground.

Cable entry points 8 are located at the junction of halves 4, 5 of housing 1. Entrances into housing 1 are designed for the maximum cable diameter. The sealing of the cable entry point 8 is provided by gaskets.

On the inner part of the coupling, mounting sites for mounting sites are provided 2. Mounting sites 9 are designed for wiring and switching cable cores. Each installation site is designed for 16 incoming and 16 outgoing cores. The total number of such mounting pads 9 in the coupling is seven, determined by the number of outgoing cables: each branch cable will be mounted on a separate mounting pad 9. It is allowed to use two or more mounting pads 9 on one cable.

Installation of signal cable cores is carried out using copper crimp connectors and heat-shrinkable tubes. The mounted pair of wires is installed in the grooves of the mounting pad 9. When the installation of the output cable is completed or when filling, the mounting pad 9 is installed in the groove at the bottom of the coupling body 1, that is, in the mounting points of the mounting pad 2.

Two openings 6 are provided on the coupling body for filling it with a sealing composition, namely, FP-65-2M-T composition. After pouring the hydrophobic composition, the holes 6 are sealed with plugs.

The service life of the mounted coupling is at least 25 years. Coupling - repairable, for example, when reassembling in the event of an increase in branches.

Installation and marking of an underground cable box is carried out in the following sequence: development of a pit for a cable box, installation of a box, placement of a passive RFID tag - a radio marker 10 with a laying depth of no more than 2.5 m; digging a pit; determining the geographical coordinates of the installation location of the underground coupling using the GPS system, entering data on the mounted coupling, the installed RFID tag and geographical coordinates in the computer database of the automated workstation of the cable group.

Sealing the housing 1 is performed during the installation of the coupling and the data on the radio marker 10 and the coordinates are recorded in a computer database (DB)

automated workstation (AWP) of the unit operating the cable network of the signaling system (cable group).

Search and localization of the underground cable box is as follows. Make a selection from the computer database of the AWP cable group of the installation data of the underground cable box. Then carry out the binding of the cable coupling to the terrain through the geographic information module AWP cable group. Next, a search is made using the GPS system for the location of the coupling with a search accuracy of 3-5 meters. After that, using a marker detector, they search for the location of the coupling with an accuracy of 0.5 meters.

Claims (1)

Underground branching clutch for electrical signaling, centralization and blocking cables, comprising a detachable casing consisting of two halves with sealed cable entries and individual cable insulation splices located in the casing, characterized in that the casing is made of high-strength insulating material, for example polypropylene , and additionally sealed with a compound having hydrophobic properties, in addition, cable entries located at the junction of the halves of the housing , made for seven branches from the group cable, installation sites for fixing, wiring and switching cable cores are also installed and a radio marker has been introduced to localize the location and fix geographical coordinates.