RU98639U1 - CABLE INSTALLATION - Google Patents

Abstract

 1. Design for laying a cable containing a bracket with shelves, characterized in that the shelves are made in the form of frame structures located one below the other, rigidly fastened to each other by linear metal reinforcing elements welded at an angle to the surfaces of the long sides of the frames. ! 2. The design for laying the cable according to claim 1, characterized in that the bracket is angled, the ends of the shelves are welded to one of its surfaces, its second surface covers part of the sides of the shelves. ! 3. Design for laying a cable containing a bracket with shelves, characterized in that the shelves are made in the form of frame structures located one below the other, rigidly fastened together by linear metal reinforcing elements, welded at an angle to the surfaces of the long sides of the frames, at the end of the free end shelf at an angle to its outer surface fixed limiter.

Description

The utility model relates to electrical engineering, can be used for electrical work during cable laying, in particular when laying cable lines on a flyover, in industrial premises, in technical rooms of residential and public buildings, in cable collectors.

A device for laying cables on and.with. No. 1534592, H02G 3/24, 1990, containing a rack with transverse curly holes and a protrusion and a shelf of a U-shaped cross section with clamps made with it in one piece. The shelf is mounted on the rack by inserting a latch into the figured holes and jamming. The disadvantage is that such a non-rigid fastening of the shelf to the rack and the execution of the U-shaped rack with the sides tapering to the free cantilever end do not provide sufficient strength and reliability.

The device for laying the cable according to the patent of the Russian Federation for the invention No. 2375797, H02G 3/02, 2009, contains a rack, support and holder with two shelves for placing cables. The holder is fixed to the support, the support and the stand are for each other a covering and covered part. The disadvantage is the inability to fix the device on a flat surface without using a rack and support, insufficient reliability of the device due to the possible curvature of the shelves due to the test load during a short circuit.

As the closest analogue to the first embodiment of the claimed utility model, the technical solution according to the RF patent for invention No. 2375798, H02G 3/02, 2009 is selected. The cable laying device comprises a bracket and two shelves located one below the other, made in the form of frame structures, rigidly connected to the end jumper. On the inner side of the shelves mounted paired mobile staples connected by a threaded element. The supporting part of the bracket is made in the form of a flat base. The disadvantage is the complexity and complexity of installing mobile brackets in the locations of cables on the shelves, the probability of displacement of the cable from a place reinforced by the stiffness of the movable bracket, the likelihood of displacement of the cable from the shelf under the action of the load. This reduces the reliability of the device as a whole.

As the closest analogue to the second embodiment of the claimed utility model, a technical solution was selected according to copyright certificate No. 1497677, H02G 3/26, 1989. A device for laying cable products on ships contains a L-shaped body rigidly connected to the wall and a lock in the form of an arc-shaped metal strip forms. The disadvantage is the low strength of the L-shaped body, the possibility of extension of the vertical end to a horizontal position under the action of loads resulting from a short circuit. The small length of the horizontal shelf does not allow evenly placing a large number of cables on it, the arrangement of cables in several layers increases the load on the shelf, reducing its reliability and the reliability of the cable itself.

The technical result of the claimed utility model is to increase the reliability of the device and the reliability of the cable.

The technical result is achieved due to the fact that in the design for laying the cable containing the bracket with the shelves, according to the utility model, the shelves are made in the form of frame structures located one below the other, rigidly fastened to each other by linear metal reinforcing elements welded at an angle to the surfaces of long sides of the frames. According to the second embodiment of the device, a limiter is fixed at the end of the free end of the shelf at an angle to its outer surface. The bracket can be made angular. The ends of the shelves are welded to one of its surfaces, its second surface covers part of the sides of the shelves. According to the second embodiment of the device, a flat restrictive element is fixed at the free end ends of the shelves, the surface of which is located at an angle to the outer surface of the upper shelf.

The reliability of the device and the cable is ensured by the strength of the shelves, which are rigidly interconnected by reinforcing elements welded to the surfaces of the long sides of the frames. Reinforcing elements are made in the form of segments of metal elements, for example, segments of rods. And they can be welded to the inner or outer surfaces of the long sides of the frames at any angle, both obliquely and perpendicularly to the surfaces of the shelves. For the second option, the reliability of the device is also increased by eliminating the likelihood of cable slipping off the shelf during a short circuit. Cable displacement is prevented by fastening at the end of the limiter shelf. The limiter surface is located at an angle to the outer surface of the upper shelf, including, it can be located at an angle of 90 °. Preventing cable slipping eliminates sagging, damage, and tearing off the shelves from the bracket under the increased weight of the sagging cable. The structural strength, affecting the reliability of its operation, can be increased due to the fact that the bracket is angled, the ends of the shelves are welded to one of its surfaces, the second surface covers part of the sides of the shelves. There is a redistribution of the load on the sections of the shelf, due to the strengthening of the bracket itself. This reduces the likelihood of the shelf tearing off the bracket, increasing the reliability of the device

The figure 1 presents a top view of the structure for laying a cable with an internal perpendicular arrangement of reinforcing elements.

The figure 2 presents a side view of the structure for laying a cable with an internal perpendicular arrangement of reinforcing elements.

The figure 3 presents a top view of the structure for laying a cable with an internal inclined arrangement of reinforcing elements.

The figure 4 presents a side view of the structure for laying a cable with an internal inclined arrangement of reinforcing elements.

The figure 5 presents a top view of the structure for laying a cable with an external inclined arrangement of reinforcing elements and a restrictive element.

The figure 6 presents a side view of the structure for laying a cable with an external inclined arrangement of reinforcing elements and a restrictive element.

The cable laying structure comprises a bracket 1 with a supporting surface 2, an upper shelf 3, a lower shelf 4, reinforcing elements 5, a stopper 6, cable 7.

The brackets 1 support part is attached to the surface of the trestle, the wall of the building, the support of the cable collector. On the shelves 2, made in the form of frame structures, lay the cable. This design due to the increased strength and reliability is used for long shelves, which can accommodate a large number of cables. The shelves 3 and 4 can be made inclined with respect to each other and to the bracket 1. The cable 7 is laid on the outer surfaces of the upper and lower shelves 2. The cables are fixed using fasteners (not shown). With a sharp increase in load during a short circuit, it is possible to displace the cable 7 from the shelf 2. The limiter 6 in the design according to the second embodiment prevents the cable 7 from slipping off under loads and during installation. The limiter 6 can be made in the form of a flat plate or in the form of a bar, and is installed on one shelf or both. This device can be used for laying a cable made of cross-linked polyethylene, experiencing increased loads.

Thus, the claimed utility model can improve the reliability of the device and cable by increasing the strength of the shelves and bracket.

Claims (3)

1. Design for laying a cable containing a bracket with shelves, characterized in that the shelves are made in the form of frame structures located one below the other, rigidly fastened to each other by linear metal reinforcing elements welded at an angle to the surfaces of the long sides of the frames. 2. The design for laying the cable according to claim 1, characterized in that the bracket is angled, the ends of the shelves are welded to one of its surfaces, its second surface covers part of the sides of the shelves. 3. Design for laying a cable containing a bracket with shelves, characterized in that the shelves are made in the form of frame structures located one below the other, rigidly fastened together by linear metal reinforcing elements, welded at an angle to the surfaces of the long sides of the frames, at the end of the free end shelf at an angle to its outer surface fixed limiter.