RU2745090C2 - Cross member (versions) and method of its attachment to single-column support of power transmission lines (versions) - Google Patents

Abstract

FIELD: ground construction.

SUBSTANCE: invention relates to double-console crossarms of single-column supports of power transmission lines (PTL). Crossarm of support of power transmission line has the shape of U-beam made of layered composite material, on the ends of which in the flanges there made are coaxial holes for pins with insulators for attachment of power line wires, and between the flanges spacers are installed, in which there are rods fixed on both sides of the beam using a metal plate bracket, and in the middle of crossarm there are two holes at the distance equal to thickness of support column, for attachment of crossarm on pillar of support by mounting bolts. Also, a crossarm version and versions of the cross beam attachment method to the single-column support of power transmission lines are described.

EFFECT: technical result is higher reliability of power transmission tower supports.

12 cl, 6 dwg

Description

The invention relates to the field of ground construction, in particular, to double-cantilever traverses of single-column supports of power lines.

Known traverse support overhead power lines, made of polymer composite material (carbon, glass or basalt plastic), in the form of a multi-chamber pultruded profile with cavities parallel to its axis. (Patent RU 138688 U1. Power transmission line support traverse. - IPC: E04N 12/24. - 03/20/2014). The disadvantage of this traverse is the complexity of its manufacture and attachment to the support.

Known traverse support overhead power line, made from an angular cross-sectional profile, to which three supports are attached for installation vertically upward of three support insulators. (Patent RU 167281 U1. Traverse of an overhead power line support. - IPC: E04N 12/24. - 27.12.2016).

Known crossbeam for fastening self-supporting insulated wires on the support of an overhead power line by means of insulators installed on the supports, which is made in the form of a rectangular frame, inside which a crossbar is fixed in the middle for fastening the crossbeam to the support. In the middle of the crossbeam, a crosspiece and guides made of an angular profile are perpendicularly and immovably attached. The frame is fastened to the support with a clamp with bolts. (Patent RU 179913 U1. Traverse for fastening self-supporting insulated wires to the support of an overhead power line. - IPC: E04H 12/24, H02G 7/05. - 05/29/2018). The disadvantage of this traverse is the complexity of the design and its attachment to the support.

The closest analogue, taken as a prototype, is a traverse for attaching two consoles, installed with a girth of a metal or reinforced concrete support and containing a beam made of channel or angle bars, equipped with a clamping angle with holes and fastening pins installed in the holes of the clamping angle and the traverse, between which two support corners are welded. (Patent RU 139985 U1. Traverse for fastening two consoles in the girth of the support (options). - IPC: В66С 1/10. - 04/27/2014).

The disadvantage of this traverse is the insufficient rigidity of the structure and the complexity of attaching it to the support, which reduce the reliability of its operation on the supports of power lines.

The main task to be solved by the proposed technical solutions is to improve the structures of the traverse using parts made of composite materials, and to increase the reliability of their operation in power lines.

The technical result is to increase the reliability of the operation of transmission line supports.

The specified technical result is achieved in that, in the known traverse of the transmission line support, in the first embodiment, made of a profile, and in the middle of the length of the traverse, two holes are made for fastening to the support post, at the ends of which holes are made in which pins with insulators are installed for for fixing the wires of the power transmission line, according to the proposed technical solution, the traverse is made of a channel beam made of a laminated composite material obtained by rolling or pressing dissimilar materials, in the shelves of which at the ends of the traverse there are coaxial holes for installing pins for insulators in them, and between the shelves, spacer sleeves are installed coaxially with the holes, in which pins for insulators are located, fixed on both sides of the channel beam profile by means of metal plate brackets.

The specified technical result is achieved in that, in the known traverse of the transmission line support, in the second version, comprising a rectangular frame made of a profile, pins with insulators installed on the frame for fastening the wires of the power transmission line, according to the proposed technical solution, the frame is made of channel beams, made of a laminated composite material obtained by rolling or pressing dissimilar materials, located with the walls inside the frame at a width of at least not less than the thickness of the support column, and in the middle of the length of the longitudinal channel beams in the walls there are two holes for attaching the traverse to the support, and the transverse the beams are docked with shelves to the ends of the longitudinal beams and are connected by means of metal plates installed on both sides of the profile of channel beams, while in the shelves of the transverse channel beams there are coaxial holes for installing pins with insulators for fixing wires of the electric power line spacers are installed between the shelves of the channels, coaxially with these holes, in which pins for insulators are located, fixed on both sides of the profile of the channel beam by means of metal plate brackets.

The specified technical result is achieved by the fact that, in the known method of attaching the traverse to a single-column support of power lines, according to the first embodiment, which consists in fixing the channel-type beam with fastening bolts covering the support column and forming the bearing consoles, according to the proposed technical solution,

a profile lining is installed between the wall of the channel beam and the post of the support, while between the shelves of the channel beam, a clamping bar is installed, which are fixed with fixing bolts, and on the opposite side of the post, a profile lining is sequentially installed on the fastening bolts with the coverage of the column of the support and the clamping bar, after which they are pulled together nuts on fastening bolts, forming two load-bearing arms;

profile pads are made of a composite material obtained by sintering mixed chemically dissimilar substances, and the outer side of the pads is made with a longitudinal groove with a width equal to the height of the profile of the channel beam of the traverse, while their inner surface is inclined relative to the plane of the trough at an angle corresponding to the taper of the support column, and on the sides of the pads there are through grooves for fastening bolts;

profile pads are made of split, providing coverage of the support column of various thicknesses;

the clamping strips are made of a composite material obtained by sintering mixed chemically dissimilar substances, with a width equal to the distance between the flanges of the channel beam and contain a pair of support bushings for fastening bolts with a center-to-center distance equal to the distance between the holes on the channel beam, mated with an I-profile.

The specified technical result is achieved by the fact that, in the known method of attaching the traverse to a single-column support of power lines, according to the second embodiment, by fastening the frame of the traverse with fastening bolts covering the support column and forming the bearing consoles, according to the proposed technical solution,

between the walls of the longitudinal channel beams of the traverse frame and the support post, profile pads are installed with the coverage of the support post, and between the shelves of these beams, clamping strips are installed, which are fixed with fastening bolts and tightened with nuts, forming two load-bearing consoles;

profile pads are made of composite material obtained by sintering mixed chemically dissimilar substances, and the outer side of the pads is made with a longitudinal groove with a width equal to the height of the profile of the longitudinal beam, while their inner surface is inclined relative to the plane of the trough at an angle corresponding to the taper of the support pillar, and on the sides of the pads there are through grooves for fastening bolts;

profile pads are made of split, providing coverage of the support column of various thicknesses;

the clamping strips are made of a composite material obtained by sintering mixed chemically dissimilar substances, with a width equal to the distance between the flanges of the longitudinal channel beams and contain a pair of support bushings for fastening bolts with a center-to-center distance equal to the distance between the holes on the longitudinal channel beams conjugated with an I-profile.

The analysis of the prior art given by the applicant made it possible to establish that there are no analogues characterized by sets of features identical to all features of the claimed variants of the traverse and the methods of attaching them to a single-column support of power transmission lines. Consequently, the claimed technical solutions meet the "novelty" condition of patentability.

The results of the search for known solutions in this field of technology in order to identify features that coincide with the distinctive features of the prototype features of the claimed technical solutions have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the known influence of the claimed variants of technical solutions of transformation provided for by the essential features on the achievement of the specified technical result has not been revealed. Consequently, the claimed variants of technical solutions correspond to the condition of patentability "inventive step".

The claimed options for technical solutions have been tested and implemented on the supports of local overhead power transmission lines (PTL) with a voltage of 6-10 kV. Consequently, the claimed options for traverses and methods of attaching them to a single-post support of a power transmission line correspond to the condition of patentability "industrial applicability".

FIG. 1 shows the traverse of the power transmission line support, the first option; in fig. 2 - traverse of the power transmission line support, the second option; in fig. 3 - attachment point of the traverse in the first version to the single-post support of the power transmission line; in fig. 4 - attachment point of the traverse in the second version to the single-post support of the power transmission line; in fig. 5 - profile lining; in fig. 6 - clamping bar.

The traverse of the power transmission line support, in the first version, has the form of a channel beam 1 made of a laminated composite material obtained by rolling or pressing dissimilar materials. In the middle of the length of the channel beam 1, two holes are made for attaching it to the pillar 2 of the support with the formation of two bearing consoles. At the ends of the consoles in the shelves of the channel beam 1, coaxial holes are made for installing pins 3 with insulators (conventionally not shown) in them to fix the wires of the power transmission line. Spacers 4 are installed between the shelves coaxially with the holes in them, in which pins 3 for insulators are located, fixed on both sides of the channel beam 1 by means of metal plate brackets 5. (Fig. 1). The presented single-girder traverse, as a rule, is used on intermediate supports of overhead power lines.

The traverse of the power transmission line support, in the second version, has the shape of a rectangular frame made of channel beams made of a laminated composite material obtained by rolling or pressing dissimilar materials. The longitudinal channel beams 6 of the traverse are located with the walls inside the frame at a width not less than the thickness of the pillar 2 of the support. In the middle of the length of the longitudinal channel beams 6, two holes are made in the walls for attaching it to the pillar 2 of the support. The transverse channel beams 7 are docked by shelves to the ends of the longitudinal beams 6 and are fastened by metal plates 8 installed on both sides of the channel beams 6 and 7. Coaxial holes are made in the shelves at the ends of the transverse channel beams 7, in which pins 3 with insulators are installed (conventionally not shown ) for fixing power lines wires. Between the shelves of the transverse channel beams 7, coaxially with the holes in the shelves, spacer sleeves 4 are installed, in which pins 3 for insulators are located, fixed on both sides of the channel beam 7 by means of metal plate brackets 5. (Fig. 2). The offered traverse, as a rule, is used on supports with points of distribution or switching of overhead power lines.

The traverse in the first version by a channel beam 1 is attached to the post 2 of a single-post support of a power transmission line with fastening bolts 9. (Fig. 3). To do this, a profile lining 10 is installed between the wall of the channel 1 and the pillar 2 of the support 10. A clamping bar 11 is installed between the shelves of the channel 1. The clamping strip 11 and the profile lining 10 are fixed on the channel 1 by aligning the holes with the fixing bolts 9. Then, from the opposite side of the column 2, a profile lining 10 is sequentially threaded onto the fastening bolts 9, covering the pillar 2 of the support and the clamping bar 11, which are tightened with nuts 12, forming two bearing consoles of the traverse with insulators at the ends for fastening the wires on the intermediate single-post supports of the power transmission line.

The traverse according to the second option is attached to the post 2 of the single-post support of the power transmission line with two longitudinal channel beams 6 of the traverse with fastening bolts 9. (Fig. 4). To do this, between the walls of the longitudinal channel beams 6 of the traverse frame and the pillar 2 of the support, profile pads 10 are installed with the coverage of the pillar 2 of the support, and between the shelves of the longitudinal channel beams 6, clamping strips 11 are installed, which are fixed with fastening bolts 9 and tightened with nuts 12, forming two bearing consoles with insulators for fixing wires of power transmission lines with the possibility of withdrawing and supplying electricity on supports with points of distribution or switching of overhead power transmission lines.

The profile pads 10 are made of a composite material obtained by sintering mixed chemically dissimilar substances. The outer side of the pads is made with a longitudinal groove with a width equal to the height of the profile of the channel beam 1 of the traverse, and the inner surface is tilted relative to the plane of the groove at an angle corresponding to the taper of the pillar 2 of the support, and on the sides of the pads there are through grooves for fastening bolts 9 (Fig. five). The profile pads 10 are split, providing coverage of the support pillar with different thicknesses. The clamping bar 11 (Fig. 6) is made of a composite material obtained by sintering mixed chemically dissimilar substances, and contains a pair of support bushings 13 for fastening bolts 9 with a center-to-center distance equal to the distance between the holes in the channel beam 6, mated with an I-profile 14.

The execution of a longitudinal groove on the profile lining with a width equal to the height of the profile of the channel beam 1 of the traverse, provides the length of the profile lining with additional rigidity to the channel beams of the traverses when the power lines are attached to them, and the installation of the profile lining with the girth of the support post increases the adhesion of the traverse with the support post by contact area between the profile pad and the support post. The installation between the flanges of the profile beams when fixing the pins under the insulator eliminates the destruction of the traverse from their compression.

Claims (12)

1. The traverse of the power transmission line support, made of a profile, and in the middle of the length of the traverse there are two holes for fastening on the support post, at the ends of which holes are made in which pins with insulators are installed for fixing the wires of the power transmission line, characterized in that the traverse is made of channel a beam made of a laminated composite material obtained by rolling or pressing dissimilar materials, in the shelves of which there are coaxial holes at the ends of the traverse for installing pins for insulators in them, and between the shelves, coaxially with the holes, spacer sleeves are installed in which the pins for insulators are located, fixed on both sides of the channel beam profile by means of metal plate brackets. 2. Traverse according to claim. 1, characterized in that the spacer sleeves are made of a composite material obtained by sintering mixed chemically dissimilar substances. 3. The traverse of the power transmission line, containing a rectangular frame made of a profile, pins installed on the frame with insulators for fastening the wires of the power transmission line, characterized in that the frame is made of channel beams made of a laminated composite material obtained by rolling or pressing dissimilar materials, located with the walls inside the frame at a width of at least not less than the thickness of the support column, and in the middle of the length of the longitudinal channel beams in the walls there are two holes for attaching the traverse to the support, and the transverse beams are docked by shelves to the ends of the longitudinal beams and are connected by means of metal plates, Channel beams installed on both sides of the profile, while coaxial holes are made in the shelves of the transverse channel beams for installing pins with insulators for fixing the wires of the power line, and between the shelves of the channels, coaxially to these holes, spacer sleeves are installed in which insulator pins fixed on both sides of the channel profile by means of metal plate brackets. 4. Traverse according to claim. 3, characterized in that the spacer sleeves are made of a composite material obtained by sintering mixed chemically dissimilar substances. 5. The method of attaching the traverse according to claim 1 to a single-column support of a power transmission line, which consists in securing the channel-type beam with fastening bolts covering the support column and forming load-bearing consoles, characterized in that a profile lining is installed between the channel beam wall and the support post, while between with the shelves of the channel beam, a clamping bar is installed, which are fixed with fastening bolts, and on the opposite side of the post, a profile lining is sequentially installed on the fastening bolts, covering the support post and a clamping bar, after which they are tightened with nuts on the fastening bolts, forming two bearing consoles. 6. The method according to claim 5, characterized in that the profile pads are made of a laminated composite material obtained by sintering mixed chemically dissimilar substances, and the outer side of the pads is made with a longitudinal groove with a width equal to the height of the profile of the traverse channel beam, while their inner surface is made with an inclination relative to the plane of the gutter at an angle corresponding to the taper of the support pillar, and on the sides of the pads there are through grooves for fastening bolts. 7. The method according to claim 6, characterized in that the profile pads are split, providing coverage of the support column of various thicknesses. 8. The method according to claim 5, characterized in that the clamping strips are made of a composite material obtained by sintering mixed chemically dissimilar substances, with a width equal to the distance between the shelves of the channel beam and contain a pair of support bushings for fastening bolts with a center-to-center distance equal to the distance between holes on the channel beam, coupled with an I-profile. 9. The method of attaching the traverse according to claim 3 to a single-column support of a power transmission line by fastening the traverse frame with fastening bolts covering the support column and forming load-bearing consoles, characterized in that between the walls of the longitudinal channel beams of the traverse frame and the support column, profile pads are installed with the support column , and between the shelves of these beams, clamping strips are installed, which are fixed with fixing bolts and tightened with nuts, forming two bearing consoles. 10. The method according to claim 9, characterized in that the profile pads are made of a composite material obtained by sintering mixed chemically dissimilar substances, and the outer side of the pads is made with a longitudinal groove with a width equal to the height of the profile of the longitudinal beam, while their inner surface is made with an inclination relative to the plane of the gutter at an angle corresponding to the taper of the support pillar, and on the sides of the shims there are through grooves for fastening bolts. 11. The method according to claim 10, characterized in that the profile pads are split to provide coverage of the support column of various thicknesses. 12. The method according to claim 9, characterized in that the clamping strips are made of a composite material obtained by sintering mixed chemically dissimilar substances, with a width equal to the distance between the flanges of the longitudinal channel beams and contain a pair of support bushings for fastening bolts with a center-to-center distance equal to the distance between the holes on the longitudinal channel beams, coupled with the I-profile.

Images