SU1095290A1 - Cable make-up - Google Patents

Abstract

KA1BELNAYA.STRUCTION, containing the racks and the rollers with the cable placed on them, is so that, in order to increase the heat dissipation from the cable, it &supplied; a coupling with a longitudinal connector made of a material with high thermal conductivity, the surface of which has a platform in contact with the shelf, and the inner part contains a support zone corresponding to the width of the shelf and repeats the shape of a stacked cable, and cooling fins are made on the surfaces of the coupling and the shelf perpendicular to the cable axis.

Description

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jL The invention relates to electrical engineering and can be used when laying power cables in cable structures, electrical rooms, shops of industrial enterprises. Cable line sections have different cable cooling conditions, such as occur in mixed laying (a ground cable structure or a production room with different ambient temperatures). The cable cross section under these conditions must be chosen over the section with worse cooling conditions, which leads to for under-utilization of cable load capacity on the remaining sections. If possible, use for sections with better cooling conditions, cable maximum cross section 1dl of the required cable brand) take into account T of cooling conditions in other areas of i causes the use of parallel cables, which is an uneconomical solution. A cable ducting device is known in which an increase in the load capacity of kaoels is achieved by laying them inside a box having a developed cooling surface due to longitudinal edges, which are simultaneously elements connecting arcuate sections designed for cable placement, and the surface shape of such sections ensures their tight fit to a substantial part of the cable surface ..il. However, placing the cable in a box is advisable only for cables of small cross sections that require small distances between the points of attachment. For the rest of the cables, in this case their carrying capacity is not used, and consequently, there is a waste of metal. In such a construction, a tight fit of the cable to the box cannot be achieved, because during cyclic heating and cooling of the cable due to uneven current load, the cable length does not correspond to the change of this parameter for the duct due to different linear expansion factors. which, in turn, requires a wavy placement of the cable in the arcuate sections. The use of cooling panels arranged in a horizontal plane does not contribute to the intensification of cooling due to the increased resistance to air flow. Combining several cables with a single cooling system leads to the undesirable influence of some cables on other, less heated ones, which leads to a reduction in their service lives due to more rapid aging of the insulation. It is also known steel cable construction for laying cables in cable structures or industrial premises, containing racks that are attached to the building; elements, and shelves installed on them for cable laying 2. Such cable construction has almost no effect on cable cooling, since heat is removed from the cable mainly by convection from the outer surface of the cable and, to a small extent, by heat conduction through the cable structure since the contact area of the cable and the shelf is insignificant due to the linear nature of the zone of their contact and the small cooling surface of such a con struction. The purpose of the invention is to increase the heat sink from the cable in certain parts of the cable line. This goal is achieved by the fact that the cable structure, comprising racks and shelves with cables placed on them, is equipped with a coupling with a longitudinal connector made of high thermal-absorbing material, the surface of which has a platform in contact with the shelf, and the inner part has a support zone corresponding to the width of the shelf, and repeats the shape of the free-lying cable, with the cooling fins perpendicular to the axis of the luft and the shelf. FIG. 1 shows the cable construction, top view; in fig. 2 is a section A-A (cable not shown) in FIG. Cable construction - contains a shelf 1 mounted on a rack (not shown), the lower half 2. (Fig. 2) detachable along the axis of the coupling cable with a pad-3 (Fig. 1) and the supporting area 4 (Fig. 2). After laying the cable 5, the upper half of the detachable coupling b is installed and the entire structure is bolted 7. The proposed cable structure is installed on relatively short sections of cable lines with worse cooling conditions by increasing the proportion of heat sink from the cable through the cable structure with a developed cooling surface allows the use of the same cable cross-section throughout its route. .

Claims (1)

i CABLE. CONSTRUCTION containing racks and g / olki with a cable placed on them, it is clear that in order to increase the heat sink from the cable, it is equipped with; a coupling with a longitudinal connector made of a material with high thermal conductivity, the surface of which has a platform in contact with the shelf, and the inner part contains a support zone corresponding to the width of the shelf, and repeats the shape of a flat cable, with cooling fins perpendicular to the surfaces of the coupling and shelf cable axis.