RU199984U1 - Cable Tray Crossing Node - Google Patents

Abstract

The utility model relates to the electric power industry and can be used, in particular, when laying power and control cables across the territory of an open switchgear (OSG) at electrical substations, as well as for additional (in addition to the cable shielding) protection of cables of secondary circuits (control circuits , protection and automation) from electromagnetic fields generated by power equipment and primary substation circuits. The intersection node of cable trays is made up of rectangular bases and covers identical to them in size, between which are installed at the corners of the posts, having a spike at the ends, which, when mounted, into the corresponding holes made in the bases and covers, the bases on the side of the trays are equipped with connecting elements groove ", and the open ends of the sides between the bases and the covers are closed by polymer partitions, and the adjacent partitions are pulled together by connecting elements in the form of brackets. Lightweight intersection products are quickly assembled and docked in angular, T-shaped and cruciform patterns. 4 ill.

Description

The utility model relates to the electric power industry and can be used, in particular, when laying power and control cables across the territory of an open switchgear (OSG) at electrical substations, as well as for additional (in addition to the cable shielding) protection of cables of secondary circuits (control circuits , protection and automation) from electromagnetic fields generated by power equipment and primary substation circuits.

Known cable tray, containing made of a polymer material, a straight-line groove in plan with open ends, equipped with connecting elements "thorn-groove", a cover and an electromagnetic shield (utility model patent No. 189076, class H02G 3/04, publ. 05/13/2019 ). This device does not have a corner joint for cable trays.

The technical problem is the elimination of the noted drawback. The technical result consists in expanding the functionality.

The problem is solved, and the technical result is ensured by the fact that the intersection of cable trays is made up of rectangular bases and covers identical to them in size, between which are installed at the corners of the posts, having a spike at the ends, which is inserted during installation into the corresponding holes made in the bases and covers, the bases from the side of the trays are equipped with “thorn-groove” connecting elements, moreover, the open ends of the sides between the bases and the covers are closed with polymer partitions, and the adjacent partitions are pulled together by connecting elements in the form of brackets.

FIG. 1 is a general perspective view of the intersection of cable trays with the cover removed; in fig. 2 - the proposed node with a corner connection of cable trays; in fig. 3 - node with T-shaped connection of cable trays; in fig. 4 - node with cross-shaped connection of cable trays.

The junction of the cable trays intersection is composed of rectangular bases 1 and covers 2 identical in size. Between the bases 1 and the covers 2, posts 3 are installed at the corners, having a groove 4 at the ends, which is inserted into the corresponding holes made in the bases and covers during installation. The open ends of the sides between the bases and the covers are closed with polymer partitions 5. Adjacent partitions 5 are pulled together by connecting elements in the form of brackets 6. All products of the unit are made of polymer materials. Each cable tray is made similar to the prototype and contains a straight-line groove 7 made of polymeric material with open ends equipped with thorn-groove connecting elements, a cover 8 and an electromagnetic shield (located under the cover 8). With the proposed node, cable trays can be connected in an angular pattern (figure 2), a T-shaped pattern (figure 3) and a cruciform pattern (figure 4). With the node, it is possible to connect the trays in pairs (Fig. 2) and single (Figs. 3 and 4).

In comparison with the currently widely used reinforced concrete trays, individual products of the proposed intersection of polymer-composite shielded cable trays are lightweight and small in overall dimensions, which reduces logistics and installation costs.

The low weight of the products allows you to reduce transportation costs for delivery, in addition, loading and unloading and installation of products is carried out without lifting mechanisms. Lightweight products are quickly assembled and docked. The products are highly impact-resistant and UV-resistant. High frost resistance of materials allows using polymer-composite trays at low temperatures (from -60 to +60 degrees C). In addition, the products are resistant to chemically active substances: the polymer-composite material does not lend itself to the effects of automotive fluids (oil, antifreeze, gasoline) and anti-icing agents, is resistant to acids and alkalis. The service life of the unit with polymer-composite shielded trays is more than 30 years.

Claims (1)

The node of intersection of cable trays, characterized by the fact that it is composed of rectangular bases and covers identical to them in size, between which are installed at the corners of the racks, having a spike at the ends, which, during installation, into the corresponding holes made in the bases and covers, the bases on the side of the trays are equipped “thorn-groove” connecting elements, moreover, the open ends of the sides between the bases and the lids are closed with polymer partitions, and the adjacent partitions are pulled together by connecting elements in the form of brackets.

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