RU2076417C1 - Supporting structure for high-voltage power transmission line - Google Patents

Abstract

FIELD: power engineering; overhead high-voltage power transmission lines installed on rugged terrain. SUBSTANCE: supporting structure has two poles and crossarms with current-carrying conductors attached to them through suspension insulator strings. Secured to each conductor by means of additional insulator string is respective guy which, in its turn, can be secured in ground by means of anchor device or on supporting structure. EFFECT: provision for using single-type intermediate poles with standard suspension insulators and traditional (triangular, vertical, horizontal, etc) arrangement of conductors throughout entire length of high-voltage power transmission line installed on rugged terrain. 7 dwg

Description

 The invention relates to energy, in particular to the support of overhead power transmission lines of high voltage, installed on rough terrain.

 A well-known high voltage power transmission line support containing a rack fixed by at least two lateral guy wires, in the upper part of each of them made of insulating material, conductive wires of all 3 phases of one circuit are fixed (Aut. St. USSR N 656141, class H 02 G 7/00, 1979).

 A disadvantage of the known technical solution is that it involves the location of current-carrying wires exclusively in the plane of guy wires (in the upper part of which they are fixed), as a result of which this solution cannot be used if it is necessary to arrange current-carrying wires by traditional methods: triangular, vertical, horizontal, etc.

 The closest in technical essence to the proposed one is the intermediate support of the high voltage power line on guy wires, including racks, traverses with conductive wires fixed to them by means of hanging garlands and insulators (KP Kryukov, BP Novgorodtsev. Designs and mechanical calculation of lines power transmission, L. Energy, 1979, S. 233-236).

 Such a constructive implementation of the support allows you to suspend current-carrying wires in any traditional way triangular, vertical, horizontal, "barrel", etc.

 A disadvantage of the known supports is that when they are placed on rough terrain in the case when one of the supports must be installed at a much lower elevation than neighboring ones, a vertical force arises upward, which will raise the hanging garland of insulators of this support, which, in in turn, it will cause an earth fault through the yoke. To prevent the rise of hanging garlands of insulators in such cases, instead of an intermediate support, a more material-intensive anchor support is installed, which is structurally different from the other supports in the power line.

 The problem to which the invention is directed, is to improve the intermediate support of the power line, installed at a lower elevation than neighboring supports, to enable the use of the same type of supports when they are placed on rough terrain with any location of the wires, namely triangular, vertical, horizontal etc.

 The problem is solved in that in a known support of a power line containing racks, traverses with current-conducting wires attached to them by means of insulator strings, guy wires, the lower parts of which are fixed to the ground or to the support structure, according to the invention, each guy guy is attached to the top (corresponding) to the corresponding (separate) live wire through an additional string of insulators.

 When the intermediate support is installed at a lower elevation than the adjacent ones, attaching the appropriate guy line to each current-carrying wire through an additional garland of insulators allows the vertical force directed upward in each current-carrying wire to be transmitted to the anchor device, which makes it possible to refuse to install heavy anchor poles on lower sections of the route and apply the poles of the same type on the entire power line passing over rough terrain, with any the most suitable for specific conditions, the arrangement of wires triangular, vertical, horizontal, "barrel", etc.

 Figure 1 shows a single-column single-chain support with a triangular arrangement of wires, while two wires located on the lower beam crossarm are fastened to the ground with braces, and a third wire located on the upper crossarm is attached to the lower crossarm with a guy line, i.e. . on the support structure (view along the line); in Fig. 2, the embodiment of the support shown in Fig. 1, in which all three current-carrying wires are fixed to the structure of the support, namely, two current-carrying wires located on the lower beam traverses, guy wires are fixed to the support stand, and the third wire located on traverse of the upper tier, a guy line attached to the traverse of the lower tier (view along the line); figure 3 single-column double-chain support with the location of the wires of the type of "barrel", while the conductive wires located on the traverse of the lower and middle tiers, guy wires are fixed to the ground, and the wires located on the traverse of the upper tier are fixed on the traverse of the middle tier (view along the line); in Fig.4 is an embodiment of the support depicted in Fig. 3, in which all current-carrying wires (each using a separate guy wire) are fixed to the support structure, namely, the wires located on the lower and middle tiers of the support are fixed on the support strut, and the wires located on the upper tier traverses are fixed on the middle tier traverses ( view along the line); figure 5 shows a two-rack single-chain support with a horizontal arrangement of wires, each of which is fastened to the ground with a guy (view along the line); in Fig.6 presents the first embodiment of the support, depicted in Fig.5, in which each current-carrying wire by a guy is fixed on one or both pillars of the support directly (view along the line); in Fig.7 shows a second embodiment of the support, depicted in Fig.5, in which the wire of the middle phase is fixed on both racks directly, and each wire of the extreme phase is fixed on the rack of the support through the cantilever element (view along the line).

The support of the high-voltage power line includes one or two racks 1 (Figs. 1, 2, 3, 4, or Figs. 5, 6, 7, respectively) of the traverse 2, to which current-carrying wires 3 are attached using garlands of insulators 4. The traverse 2 can be located in one tier (figure 5, 6, 7), two tiers (figure 1, 2) and more tiers (figure 3, 4). To each current-carrying wire 3, using an additional garland of insulators 5, a corresponding guy cord 6 is attached, which, in turn, can be fixed:
into the ground with the help of an anchor device 7 (FIGS. 5, 1, 3, all guy wires except for the wires attached to the upper tier);
directly to the struts of the support (Fig.6, 7 guy wires of the middle phase; Fig.2, 4 all guy wires, except guy wires attached to the upper tier of wires);
to the rack through the cantilever element 8 (Fig.6 guy wires of the extreme phases);
in the traverse (sah) 2 (figure 1, 2, 3, 4 guy wires of the upper tier).

 Braces can be made of any material: steel rope, profile steel, polymeric materials.

 When installing the support of the high-voltage power line at a lower mark than the two neighboring ones, the vertical force directed upward at the point of attachment of the wire 3 to the garland 4 is transmitted through an additional garland of insulators 5 by a guy line 6 to the anchor device 7, mounted in the ground, or to the racks 1 directly or through the cantilever element 8, or on the crosshead 2 of the lower tier of the current-carrying wires 3.

 The proposed technical solution allows the use of the same type of construction of intermediate supports with conventional suspension insulation and the traditional arrangement of wires (triangular, vertical, horizontal, barrel, etc.) on the entire high voltage power line and to abandon the use of expensive heavyweight anchor supports in low sections of the route.

Claims (1)

 A high-voltage power line support, containing racks, traverses with current-conducting wires attached to them by means of insulator strings, guy wires, the lower parts of which are fixed to the ground or to the support structure, characterized in that each guy wire is attached to the corresponding current-carrying wire through an additional garland of insulators.

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