RU83661U1 - CABLE MOUNTING ASSEMBLY FOR CABLE LAYING - Google Patents

Abstract

The assembly of the cable to the cable support, made in the form of a flexible element, characterized in that the flexible element is not closed, contains a woven base of synthetic fiber material used within inextensibility under the applied load, and a protective coating of light-stabilized material.

Description

The utility model relates to the field of electrical engineering, in particular, to cable armature elements and can be used when attaching cables to the supporting surfaces of cable laying devices, for example, shelves of a cable overpass.

A support clip is known for fixing optical self-supporting communication cables to supports, RF patent for the invention No. 2313873, H02G 7/05, 2007. The clip is made in the form of a spiral protector and strands of power wire spirals. The tread and strand are completely covered with special plastic and wound directly onto the cable. The strand is performed with a loop into which the suspension is inserted. The disadvantage is the difficulty of mounting the clamp associated with winding the tread and the strand on the cable.

Device for fastening cables according to A.S. No. 997160, H02G 3/26, 1983, contains a stud rigidly fixed to the base, and a flexible perforated element placed on the stud. The cables fastened on a hairpin are covered by the metal perforated element. The ends of the perforated element are pressed against the protrusion of the stud with threaded fasteners. The disadvantage is the possible loss of energy due to the presence of closed metal circuits of magnetic materials around the cable. In addition, the design does not have sufficient reliability due to the possibility of breaking the cable sheath, in particular grinding, in places of contact with flexible perforated elements.

In the device for fastening cables according to the patent of the Russian Federation for invention No. 2006121, H02G 3/26, 1994, the cables are laid in an open silicone tube, insulated with a protective element from the side of the slot of the tube and covered by flexible metal bands. Flexible bands are inserted in the slots of the brackets around the tube into the transverse slots of the tube, covering the tube from the outside and interacting with the outer surface of the protective element. In this technical solution, the necessary reliability and protection from the effects of a closed metal circuit is provided due to the complication and weighting of the design of the device.

As the closest analogue to the claimed technical solution, the RF patent for the invention No. 2286633, H02G 3/32, 2006 “Device for cable fastening (options)” was selected. In this device, the cables are attached to the base using insulating elements fastened with a single U-shaped fixing element. The locking element itself is attached to the base using a threaded connection. This patent excludes the influence of a closed metal circuit on the cable, however, the complexity of mounting the cable to the base is very high.

The technical result of the claimed utility model is to reduce the loss of energy passing through the cable, reduce the complexity of cable fastening, and increase the reliability of the mount.

To achieve the specified technical result, in the assembly of the cable to the cable support, made in the form of a flexible element, the flexible element is not closed, contains a woven base of synthetic fiber material used within inextensibility under the applied load, and a protective coating of light-stabilized material.

Reducing energy losses and increasing reliability is achieved due to the fact that the base of the flexible element and its protective coating are made of non-metallic material. When a cable is placed in closed metal circuits made of magnetic materials during phase imbalance, i.e., when cos φ <1, where φ is the phase angle between current and voltage, reactive energy is released into the electric network, which leads to an increase power loss. In addition, in a closed circuit, eddy currents are likely to occur, leading to heating of the cable at the attachment points and, as a result, to damage to the cable insulation. Elimination of the closed magnetic circuit leads to the exclusion of heating points of the cable at the attachment points under asymmetric load, which increases the reliability of the node as a whole. Improving the reliability of the cable attachment itself is ensured by the fact that the flexible element contains a woven base of synthetic fiber material used within inextensibility under the applied load, and a protective coating of light-stabilized material. A woven synthetic base is able to withstand breaking loads that occur in places where the cable is attached to the support shelves during a short circuit in the electrical system. A short circuit is accompanied by the occurrence of high mechanical forces in the cable, which is transmitted to the mount. Due to the mechanical effect on the mount, the braided synthetic base is lengthened. To ensure the reliability of the node, the base is selected so that when

the applied load, corresponding to the force in the cable, the base did not stretch, because, when the base is stretched, the attachment site is weakened, affecting the reliability of its operation. The load on the mount should be less than the load at which the extension of the base begins, as indicated in its technical specification. The use of a protective coating of light-stabilized material prevents the destruction of the attachment site under the action of ultraviolet radiation, which are exposed to cables placed on a flyover in an open space. The execution of the flexible element open allows you to tie a cable laid on the shelf support with the coverage of the shelf. The installation time of one node is reduced by 16 times compared with the installation time using the closest analogue, in particular from 3-4 minutes to 15 seconds. On cable racks up to 17 thousand attachment points are used, when using the claimed technical solution, there is a significant reduction in the complexity of the installation process.

The figure 1 shows the node mounting the cable to the support for laying the cable.

The figure 2 shows the node attaching the cable to the support for laying the cable mounted on a shelf support.

The mounting unit of the cable 1 to the shelf of the support 2 for laying the cable contains a flexible element 3 with a wicker base 4 of synthetic fiber material and a protective coating 5 of light-stabilized material.

As a woven base 4 of synthetic material, cords, ropes, ropes of synthetic materials such as polyamide, polypropylene, nylon, caprolon can be used. The type and brand of wicker base 4 are selected with the condition that its physical and mechanical parameters such as diameter, breaking load, elongation under load, braid shift, number of jerking to break, breaking load to the calculated breaking strength at a certain current strength during short circuit in a particular electrical circuit. As the base 4 use static rope, not subjected to tension. It is possible to use dynamic ropes provided that loads are applied that do not cause their tension, i.e. in the limit of inextensibility. As a protective coating 5, a heat-shrinkable tube, for example, of light-stabilized polyethylene, is used. To fasten the cable 1 on the shelf, the supports 2 cover them with a flexible element 3 and tie the flexible element 3 with a special fixing unit, the number of turns of the flexible element 3 depends on the diameter of the cable, the number of cables in the bundle and the applied load during short circuit.

Thus, the claimed utility model allows to reduce the loss of energy passing through the cable, the complexity of mounting the cable, to increase the reliability of the node mounting the cable on the support.

Claims (1)

The assembly of the cable to the cable support, made in the form of a flexible element, characterized in that the flexible element is not closed, contains a woven base of synthetic fiber material used within inextensibility under the applied load, and a protective coating of light-stabilized material.