SU1191541A1 - Power transmission line support - Google Patents

Description

The invention relates to the construction, namely to the structures of the supports

overhead power lines.

The aim of the invention is to reduce the complexity of installation and increase the efficiency of damping dynamic effects.

Figure 1 shows the support in the operating mode, a general view; figure 2 is the same in terms of; in FIG. 3, node I in FIG. one; figure 4 - node P in figure 1; figure 5 - insulating insert in the extended position, the overall view; figure 6 is one of the options for mounting the support, the position after the end of the Assembly and display sections, suspended grounding cable; 7 - the same, the position when the conductors are mounted; on Fig the same, the initial position of the lifting pillars with wire rope, strut, ground wire and conductors; figure 9 is the same, the final position of the lifting support struts with wire-resistant, strut, ground wire and conductors.

The power line support consists of Y-shaped struts G, cable-resistant 2 with grounding cable 3 and conductors 4, struts 5. Racks 1 are pivotally supported on foundation 6 and fastened on either side with 7 cable ties on the anchor 8. Cable-resistant is made in the form of a deltoid installed from the ability to rotate along and across the axis of the Transmission line. The horizontal element, combining the tops of the uprights, includes a rigid box 9, jav. the smaller diagonal of the deltoid ’, and the cylindrical inserts 10 placed at the ends of the rigid insert and the flexible end elements 1 1. A cylindrical insert 10 is fixed on the lower apex of the deltoid.

In the cylindrical inserts mounted conductors 4 with electrical insulating inserts 12, crimped detachable part 13 cylindrical inserts with bolts 14. Insulating inserts made sos.tavnymi.from the segment elements 15 and 16 of variable cross section, and one of the surfaces of the segment elements has a groove 17, and * the other corresponding to this groove ledge 18.

541 2

The support is equipped with additional delays 19, the ends of which are attached to the lower apex of the deltoid and to the joints of the U-shaped support.

The spacer includes supporting elements 20, mounting inventory supports 21, blocks 22, brake cables 23, mounting cables 24. The cylindrical inserts are provided with stiffening ribs 25.

In one of the mounting options, the supports of the rack 1 in the lower part are connected to the foundation 6 by means of a hinge 19 and laid out along the plane of the support.

In the middle part of the rack 1 are pivotally attached to the separate supporting elements 20 of the spacer 5 supported on the mounting inventory supports 21, and in the upper part through the rotating blocks 22. from one side fixed to them by a delay 7, on the other flexible end elements 11, on which the cable-resistant cable 2 is suspended. The drawbars 7 at the attachment points to the anchors 8 through the rotating blocks 22. pass into the brake cables 23. And before fixing the cable-resistant 2 to the flexible connections 11, the ground wire 3 is rolled and the conductors 4 are rolled up according to the marked lengths so that their spans and sag arrows can be further fixed. Adjusting the length of the ground wire 3 and the conductors 4 is performed by pre-stretching them 1 with intermediate anchoring in the sections of the route caused by the terrain. Next, the ground wire 3 rises and, according to the markings indicated, is attached to the cable resistance 2 in the usual way. Then, one by one, inserts 9 with larger segment areas 16 in section 16 are inserted in inserts 9, into which the lifted conductors 4 are inserted according to the indicated marks. After that, in the grooves of the elements 16 are moved by projections segment elements 15 of a smaller area in cross section. Inserted inserts 12 are crimped with detachable part 13 of inserts 19 with bolts 14 and 14.

For more electrical insulation

effect and reliable coupling of the conductors 4 with an insert 12 on the internal

component surfaces

15 and 16 may be applied layer

3

1,191

adhesive insulating mastic. For ease of installation of conductors 4, the lifting height of the cable supports 2 is controlled by the tension of the brake cables 23. Before lifting the support into the rotating blocks 22, located in the middle of the racks 1, the mounting cable 24 is placed. Through the tension of the mounting cable 24, the rear cable -10 one room to! other pillars 1 support and lift cable-resistant 2 with ground wire 3, conductors 4 and support elements 20 spacers 5 to the design position. The support elements are adjusted to the design position by brake cables 23. Due to the hinged connection with the stand 1, the support elements 20 are rotated to the working 20 position and are interconnected into a spacer spatial element - the spacer 5, after which the mounting cable 24 and rigging accessories are removed , secured by delays 25 7 in a constant stationary position.

This completes the process of mounting a pole or a row of poles of a section of a transmission line.

The proposed method can be carried out along the elevator simultaneously multiple supports.

The adopted support scheme ensures its stability in all modes of operation.

. When a structure is in operation, a phenomenon occurs ³⁵

rocking is resistant in different directions due to the flexibility of prestressed bonds, the value of which is regulated by the tension of the connections. This advantage of the proposed transmission line support during its operation (i.e., the impact of wind and weight loads on the conductors and cable, the tension when the conductor and cable are broken, significantly reduce external loads, and bring their dynamic effects to static, positive 541

but use the effect of mutual

conductor holding effect

and the cable at the edge of one of them.

In general, the working conditions of the support structure are improved, its material consumption is reduced.

The use of electrical insulating inserts of composite power lines that move into one of the other segmented elements of unequal areas in cross section, having one groove and the other protrusion of a similar profile in the construction of a power line support, made it possible to increase the reliability of electrical insulation , and many working elements with their connections, such as · coupling fittings, insulators, loop loops, etc.), reduce the labor intensity of installation, reduce the distance from current-carrying d o grounded support parts. In general, the number of power line outages is reduced, and its efficiency increases.

At the same time, due to the use of the cable system of joints of the working elements of the support, a reduction in the labor intensity of installation is achieved (lifting of the production support simultaneously, racks, cable-resistant with conductors and ground wire, with their previously fixed span lengths and sag arrows, can be simultaneously lifted by several supports during installation and lifting the working elements of the support itself are used, special heavy fixtures are excluded, such as delivery boom, powerful cranes).

Thus, the proposed support of the power line allows to increase the efficiency of damping the dynamics of external loads, to increase the reliability of electrical insulation and reduce the complexity of installation.

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Claims (2)

1. Power line support, including racks, pivotally supported on the foundation and fastened by paired braces, a horizontal element that combines the tops of racks, cable resistance with current leads and a ground wire, in order to reduce the complexity of installation and increase the effectiveness of dynamic actions, racks made V-shaped and provided with additional braces, cylindrical inserts to accommodate the conductors and a horizontal strut to connect the racks; cable-resistant is made in the deltoid can be rotated along and across the axis of the power line, and the horizontal element is in the form of a rigid insert and flexible terminal elements, with cylindrical inserts placed at the ends of the rigid insert and at the lower top of the deltoid, ^ the ends of the additional braces are attached to the lower top of the deltoid and to racks of a U-shaped support. · 2. The support according to π.1, characterized in that the cylindrical fittings are provided with electrical insulating inserts of annular cross-section made of segment variable elements with longitudinal displacement, one of the surfaces of the segment elements having a groove and the other corresponding to this groove a protrusion . zi „..1191541 1 ¹