RU2539042C1 - TEMPORARY QUICK-MOUNTING AND DISMOUNTING SUPPORT OF OVERHEAD TRANSMISSION LINE PER 35-110 Kv - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: support consists of a stand-alone vertical rack, a support platform and guy ropes for maintenance of the rack in vertical position. Yokes for wire suspension are fixed at the support. The rack height consists of interconnectable sectional parts with different sizes of cross-section and length. The support frame in assembly has four sections of the same type and is coupled to the ground by supporting nodes. Diagonal ties are used to ensure rigid connection of the support platform with the rack. A supporting node of the support platform section and diagonal ties is made as a ring clamp with lugs inserted into a gap between locking plates and diagonal ties. The supporting node is mounted to sections of the support platform; it consists of a pipe riser, a lug, a supporting plate with openings to fix the supporting node by screwing spirals to the ground. Sections of the support platform are made with a plug, a lug and a pivot shaft with a limiter, which is inserted into the respective bushing at the end of the support platform section.

EFFECT: support is manufactured, mounted and dismounted in a simple way; it may be installed at uneven ground; it has low weight, it is characterised by rigidity and stability of design in longitudinal and transversal directions as the load is distributed in comparatively even way along all sections of the support platform in the support.

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Description

The invention relates to the field of electric power industry, in particular, to constructions of temporary prefabricated and dismantled supports of overhead power transmission lines of 35-110 kV for emergency recovery work.

Known support for the suspension of wires of an overhead power line, containing at least one rack with traverses mounted on it, which is assembled from telescopically connected conical sections (parts) inserted with a given force by a narrow part of one section into the wide part of another section [1] .

The main disadvantage of this support is the insufficient strength of the joints of the connected conical sections, which makes it unsafe and unreliable to use such supports as temporary quick-fit and dismantled for repair and restoration work on the lines.

The closest technical solution in relation to the proposed one is a temporary quick-mount and dismantled support of overhead power transmission lines of 35-110 kV, containing a vertical rack, consisting of several sections connected in series with each other [2].

However, this technical solution has disadvantages:

- the impossibility of independently varying the directions of the axes of the support elements for ease of installation and installation of the rack on an uneven ground surface;

- insufficient rigidity and strength of the support elements and their joints;

- excess weight of structural elements;

- the installation of the support is time-consuming and requires a sufficiently long time, which is not desirable for supports of this functional purpose.

The applicant and the authors set themselves the task: to propose a new design option for temporary quick-mount and dismantled supports for overhead power lines 35-110 kV, providing the necessary level of stiffness and strength characteristics, stable operation of the structure when exposed to permissible operational loads, acceptable weights of structural elements, efficiency and speed of installation and dismantling works. The above positive technical result was achieved by the Applicant due to a new set of essential design features in the proposed temporary quick-mount and dismountable support of overhead power lines of 35-110 kV, set forth in the following claims: "temporary fast-build and dismantled support of overhead power lines of 35-110 kV, containing a vertical stand, consisting of several sections connected in series with each other; it is equipped with a supporting platform, consisting of at least four of the same tubular, or Tauri, or shaped sections of a triangular, or rectangular, or trapezoidal cross-sectional shape, fastened to the base of the rack by means of joints that allow independent spatial orientation of the axes of the sections of the supporting platform and varying the directions of the longitudinal axes of the sections without displacements of the joints along the axis of the rack, while the rack is connected to each section of the support platform using pull-out cables nuts or shrouds, at the ends of the support platform sections external to the rack and in the central part of the support platform, under the rack, support nodes are provided for contact or connection with the ground, located at different heights and consisting of a vertical riser, an eye and a support plate freely lying on the ground or fastened to the ground by means of a spiral screwed into the ground through its holes, or fastened to the ground by means of bolted connections with concrete base-pedestals, previously deepened into the ground, p Each section of the support platform is rigidly fastened to the rack by inclined rod braces, which are screw pairs for adjusting their lengths during installation, ensuring the vertical position of the rack on an uneven ground surface and the rigidity of the entire support platform; the rack consists of several sections connected in series with each other, the sizes of which are selected from the conditions of strength and stability of the sections and the rack as a whole; the support unit for attaching the support platform section, as well as a variable-length brace to the base of the rack, is made in the form of a clamping ring, into the gap between the clamping plates of which the eyes of the support sections are inserted and fixed with bolts; the plates of the supporting nodes of the sections of the supporting platform are fastened to the ground by means of spirals made of a thick rod; sections of the supporting platform are fastened to the base of the rack by means of flange connections; the vertical strut of the support unit for mounting the support platform section is made in the form of a screw pair for regulating the lifting of the support unit above the ground; the hinged connection of the support node to the section of the support platform is made in the form of a fork, an eye is inserted into the lumen between the parallel plates of which, the fork is equipped with a pin located in the sleeve located at the end of the support platform section and a stopper preventing the pin from falling out of the counter sleeve at the end sections of the support platform and providing biaxial rotation of the support assembly for mounting the support on an uneven ground surface. "

The invention is illustrated by drawings, where figure 1 shows a General structural diagram of a temporary pre-fabricated and dismantled supports overhead power lines 35-110 kV, made according to the present invention; figure 2 is a variant of the attachment of sections of the support platform and braces of variable length to the base of the pillar of the support in figure 1; figure 3 - clamping ring (clamp) for securing sections of the support platform and braces of adjustable length to the base of the pillar of figure 2, providing the ability to install sections of the support platform and braces at different angles relative to the axis of the rack and azimuthal directions; figure 4 is an option of supporting sections of the support platform on the ground and fastening using a spiral screwed into the ground through a special hole in the base plate; figure 5 - device of the type "fork-pin" for the articulation of the support node to the section of the support platform.

The inventive temporary prefabricated and dismantled support of overhead power transmission lines of 35-110 kV, designed to carry out the necessary, often urgent emergency recovery work on the lines, is a structure consisting of a free-standing vertical rack (mast) 1, support platform 2, cable ropes 3 to hold the strut 1 on the support platform 2 in a vertical position. On the rack 1, traverses 4 are mounted for hanging wires (not shown) of overhead power lines. The desired height of the rack 1 is selected from several interconnected sectional parts with different sizes of cross sections and lengths selected as a result of strength calculations in accordance with the permissible operating loads.

The supporting platform 2 in the assembly has four sections, conventionally indicated in FIG. 1 as OA, OB, OS and OD, and is connected to the ground at the outer ends, indicated in FIG. 1 through A, B, C and D, using the support nodes . The sections of the supporting platform 2 are of the same type, possibly of different lengths and consist of the same parts (elements) in the form of tubular, tee and other elements, triangular, rectangular, trapezoidal cross-sectional shape with flanges for connection with each other. The geometric parameters of the parts of the sections of the supporting platform 2 are determined as a result of strength calculations.

The sections of the supporting platform 2 are connected at the base of the rack 1 by means of connections that provide the possibility of independent spatial orientation of the axes of the sections of the supporting platform 2. To ensure a rigid connection between the sections of the supporting platform 2 and the rack 1, braces 5 are used, which are screw pairs that allow changing the length of the braces 5 for ensure the vertical direction of the axis of the rack 1. The mounting node of the sections of the support platform and braces 5 (Fig.2 and 3) to the base of the rack 1 may be a clamping ring 6, in the gap between y clamping plates 7 of which are inserted into eyelets 8 sections of the support platform 2 and the braces 5 and fixed by bolts (not shown). Thus, it is possible to vary the directions of the longitudinal axes of the sections of the support platform 2 and the braces 5 to adapt to possible unevenness of the soil and ensure the vertical direction of the axis of the rack 1. The sections of the support platform 2 can also be additionally interconnected by rigid ties in the form of braces of variable length (not shown), similar to braces 5, to provide greater structural rigidity.

Toward the end of each section of the support platform 2, a support assembly (Fig. 4) is mounted, consisting of a vertical riser 9, an eye 10, a support plate 11 where holes 12 are made for fixing the support assembly by screwing spirals 13 into the ground 14. The vertical riser 9 can also be equipped with a screw pair for regulating the height of the lifting of the support node above the ground 14.

At the end of each section of the supporting platform 2 there is a fork 15, into the gap between the parallel plates of which an eye 10 is inserted and fixed with bolts or studs to ensure free rotation of the eye 10 in the fork 15. To ensure the rotation of the fork 15 around its axis, it has a pin 16, which it is inserted into the corresponding sleeve 17 at the end of the section of the supporting platform 2. At the end of the pin 16, a stopper 18 is provided to prevent the pin 16 from falling out of the mating sleeve at the end of the section of the supporting platform 2. This ensures vuhosevoe rotation support unit for ease of installation on an uneven surface of the ground 14.

In the central part of the support platform 2 under the support rack 1, a similar support device can be installed to increase the structural strength and reliability of the support of the support with the ground 14.

The support is mounted as follows. First, the central part of the support platform 2 is installed at the required distance from the ground 14. The latter is provided in several ways: using a temporary support, which is removed after installation of the support platform 2; pouring concrete pedestals to the required height; using the reference node described above (figure 4). Then, parts of the sections of the supporting platform 2 are sequentially mounted using temporary supports. The end parts of the sections of the support platform 2 are mounted on the ground 14 using the support units (Fig. 4) and, if necessary, are fastened to the ground 14 with helical spirals 13. Then, the support stand 1 is mounted with the base of the support 1 hinged in the central part of the support platform 2. After that by means of guy cables 3, rack 1 rises vertically, braces 5 are installed, changing their length with the help of screw pairs of the support unit. If necessary, similar braces (turnbuckles) are installed between the sections of the supporting platform 2. Thus, the necessary rigidity and strength of the structure as a whole, as well as its individual nodes and joints, are provided. Disassembly of the support is carried out in the reverse order.

The proposed temporary pre-fabricated and dismantled support of overhead power transmission lines of 35-110 kV is characterized by the following advantages:

- the structural elements of the support, in particular the sections of the supporting platform, are of the same type, which greatly simplifies and reduces the cost of manufacture, installation and dismantling of the support;

- the construction of the support provides the possibility of varying the direction and angle of inclination of the sections of the supporting platform, which allows you to install the support on uneven ground;

- a significant weight reduction was achieved due to the redistribution of internal forces in the support platform due to the use of braces and other elements connecting the sections of the support platform, as well as due to the use of the support unit under the support stand;

- significantly increased rigidity and stability of the support structure due to the use of braces of adjustable length;

- a more stable scheme is provided with respect to the longitudinal and transverse directions, since the load is distributed relatively evenly over all sections of the support platform.

Design and strength calculations of the claimed construction of the support are carried out by specialists of IPRIM RAS and TAIZ using CAD / CAE computing systems, the preparation of technological documentation, the manufacture of the support and the necessary equipment are carried out at the TAIZ enterprise.

Information sources

1. US patent No. 3270480, class 52-726 (Е04Н 12/08), published September 6, 1966

2. Description of the invention to the patent of the Russian Federation “Support for the suspension of wires of overhead power lines” No. 2307223, class Е04Н 12/00, filed January 19, 2006, published September 27, 2007, bulletin No. 27.

Claims (7)

1. Temporary pre-fabricated and dismantled support of overhead power transmission lines of 35-110 kV, containing a vertical rack, consisting of several sections connected in series with each other, characterized in that it is equipped with a support platform consisting of at least four of the same tubular, or tee, or truss sections of a triangular, or rectangular, or trapezoidal cross-sectional shape, bonded to the base of the rack by means of connections that allow independent spatial the orientation of the axes of the sections of the supporting platform and varying the directions of the longitudinal axes of the sections without displacements of the joints along the axis of the rack, while the rack is connected to each section of the supporting platform using guy cables or cables, at the ends of the sections of the supporting platform external to the rack and in the central part of the supporting platform under the rack, support nodes are provided for contact or connection with the ground, located at different heights and consisting of a vertical riser, an eye and a base plate freely lying on the ground or fastened to the ground by means of a spiral screwed into the ground through its holes, or fastened to the ground by means of bolted connections with concrete base-pedestals, previously recessed into the ground, each section of the support platform is rigidly fastened to the stand by inclined rod braces, which are screw pairs for regulation of their lengths during installation, ensuring the vertical position of the rack on an uneven ground surface and the rigidity of the entire supporting platform. 2. Support according to claim 1, characterized in that the rack consists of sections connected in series with each other, the dimensions of which are selected from the conditions of strength and stability of the sections and the rack as a whole. 3. The support according to claim 1, characterized in that the support unit for fastening the support platform section, as well as a variable length brace to the base of the rack, is made in the form of a clamping ring, into the gap between the clamping plates of which the eyes of the support sections are inserted and fixed with bolts. 4. The support according to claim 1, characterized in that the plates of the supporting nodes of the sections of the supporting platform are fastened to the ground by means of spirals made of a thick rod. 5. The support according to claim 1, characterized in that the sections of the supporting platform are fastened to the base of the rack by means of flange connections. 6. The support according to claim 1, characterized in that the vertical strut of the support node for mounting the section of the support platform is made in the form of a screw pair for regulating the lifting of the support node above the ground. 7. The support according to claim 1, characterized in that the articulated connection of the support node to the section of the support platform is made in the form of a fork, an eye is inserted into the gap between the parallel plates of which, the fork is provided with a pin located in the sleeve located at the end of the section of the support platform and a limiter to prevent the trunnion from falling out of the mating sleeve at the end of the support platform section and providing biaxial rotation of the support assembly for mounting the support on an uneven ground surface.

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