RU2400889C1 - Ladder - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: ladder represents installation site 1, suspension, attachment assembly 2, support links 4 and braces 5. Said site 1 consists of several frames jointed together by locking pins. Suspension represents "П"-like tube with its ends secured in lugs of site 1 and its horizontal part secured to attachment assembly 2 representing a clip, frame and support links 4. Strip stays in contact with clip pin while support links 4 are secured to the frame by rope loops and tips. Second ends of links 4 are secured via turnbuckle to vertical posts 21 and braces 22 of extreme frames of installation site 1. Turnbuckle has guard 23 made up of ropes secured on line tower posts. Total force in braces 5 are set to make not over 700 kg, while inclination relative to vertical is selected to vary from 0° to 15°.

EFFECT: simple design and ease of production and mounting, reduced costs and higher safety.

7 cl, 6 dwg

Description

The invention relates to the field of electric power, and more specifically to devices (ladders), designed for the electrician to reach the length of the ladder when installing fittings on wires, lightning protection cables and self-supporting cables of overhead power lines.

A device for repairing overhead power lines, mainly with metal supports, comprising a mounting pad and a fastening and turning assembly made in the form of a vertical rack with ring clips pivotally fixed at its ends and a fixing element rigidly fixed in its middle part, the lower clip pivotally connected with one of the ends of the installation site, and the top with the other end by means of cable braces [1].

The disadvantage of this device is the complexity of its design, due to the presence in the design of a mounting-rotary assembly, and, as a result of this, there are certain difficulties when installing the device on overhead power lines (it is mounted mainly only on metal supports). The practice of electric grid construction shows that suspended ladders are most acceptable from the point of view of reliability and economic feasibility.

The closest technical solution for a similar purpose with respect to the proposed one is a ladder for mounting fittings on wires, lightning protection cables and self-supporting cables of overhead power lines, containing a mounting pad and a mount to the support [2].

This device is intended solely for mounting loops of overhead power lines and therefore it is difficult to use it in other repair and installation linear operations due to the small size and narrow-profile design of the unit for fastening the device to the supports, providing the installation site to move along a large circular arc around the loop. In addition, there are doubts about the reliability of such a ladder and, therefore, the safety of linear installers working on it, since the hinged mount does not guarantee compensation of the bending-torsional forces that arise when workers move along the installation site of the ladder.

The applicant set himself the practical task of developing a universal ladder design intended for mounting linear fittings on wires, lightning protection cables and self-supporting optical cables of overhead power lines, capable of reliably and safely for line-drivers to work both on supports and in spans of lines. A positive technical result, which is the reliability of operation, safety of operation on the ramp, ease of transportation, installation and dismantling, simplicity of design (consists of standard, always available components) and low manufacturing costs, was achieved due to a new set of essential design features the proposed ladder, given in the following claims: "a ladder for mounting fittings on wires, lightning protection cables and self-supporting cables of air power transmission line comprising a mounting pad and a mount to a support; the mounting platform is collapsible and consists of several trusses selected depending on the length of the gangway, made of metal pipes and connected to each other by fixing fingers fixed in the holes of the connecting joints of the connected trusses, a suspension made in the form of a bent П- is fixed in the middle of the central truss of the mounting platform of a shaped pipe, the ends of the vertical struts of the U-shaped pipe are pivotally fixed in the eyes rigidly attached to the farm by means of fingers, the horizontal shelf of the U-shaped pipe connected to the attachment of the ladder to the support, consisting of a bracket, the finger of which has a horizontal shelf of the above pipe, a frame in the form of a flat plate and at least four supporting rods connecting the central and extreme trusses of the mounting platform, the mentioned supporting rods are connected to the mounting the platform through the turnbuckles designed to regulate their tension during the installation of the ladder, and the ladder is equipped with guy wires to the ground with an adjustable force in each of them, fixed on the extreme trusses of the installation platforms designed to fix the ladder from tipping over after its suspension on the support beam; mounting frame trusses are made of aluminum alloy pipes; it is equipped with vertical struts with struts, to which supporting rods are fixed; supporting rods are made in the form of steel cables; it is equipped with a fence made in the form of cables mounted on racks of line supports; the total force in guy wires to the ground should be no more than 700 kg; the angle of inclination of guy wires to the ground relative to the vertical is chosen within the range of 0 ° ÷ 15 ° ”.

The invention is illustrated by drawings, where figure 1 shows a General view of a ladder made according to the present invention, a front view; figure 2 is the same as in figure 1, the attachment of the ladder to the line support; figure 3 is the same as in figure 1, the mounting of the suspension ladder to the mounting site; figure 4 is the same as in figure 1, the fastening of the supporting rod to the mounting site; in Fig.5 is the same as in Fig.1, a section of the joint connecting the truss mounting site; figure 6 is the same as in figure 5, a top view.

The proposed ladder for mounting valves on wires, lightning protection cables and self-supporting cables of overhead power transmission lines consists of a mounting platform 1, a mounting unit 2 to a support 3 lines, supporting rods 4 and guy wires 5 to the ground, fixing the ladder from tipping over after hanging it to the line. The assembly site 1 is a collapsible structure assembled from individual trusses; farms can be from 3 to 5, depending on the length of the ladder (ladders 7 or 10 meters long). The trusses are made of metal or aluminum alloy pipes 6, which are connected to each other by fixing fingers 7, and are fixed in the holes 8 of the connecting joints 9 (figure 5). Suspension 10 is fixed exactly in the middle of the central truss of the mounting platform 1 (along the vertical axis of symmetry dividing the ladder into two symmetrical parts); it is a pipe bent in the shape of a U-shaped figure. The ends of the vertical struts 11 of the suspension 10 (pipe) are fixed for rotation in a vertical plane in the eyes 12, which in turn are rigidly attached to the mounting frame farm 1 with fingers 13. The second end (the horizontal part of the pipe) 14 of the suspension 10 is connected to the attachment point 2 of the ladder to the support traverse, or to the support itself, or to the wires of the line. The mounting unit 2 is made in the form of a bracket 15, a frame 16 (flat plate) and four supporting rods 4. The horizontal part 14 (shelf) of the suspension 10 is fixed on the pin 17 of the bracket 15, and the supporting rods 4 (for the most part, four of them) are mounted on frame 16 - two upper rods 4 with cable loops 18, and two lower rods 4 with tips 19. Support rods 4 with second ends through lanyards 20 are connected to vertical struts 21 and struts 22 located on the extreme farms of the mounting platform 1. Lanyards 20 are designed to regulate tension in the pallet alive rods 4 in the ramp installation. Supporting rods 4 can be made in the form of steel cables. The ladder is performed with a fence 23 in the form of cables fixed to the struts of the line supports.

The invention works as follows.

Before starting work, the ladder is subjected to external inspection in order to check its condition as a whole and the main load-bearing elements separately. Before assembling the ladder transported in the disassembled state to the installation site on the line, all trusses of the installation site 1 are laid out in accordance with their marking. The assembly of the ladder farms is carried out in the following order: the farm with the designation 1 is joined to the farm with the designation 2 and then in ascending order of the designation numbers. The connecting joints 9 of the trusses are fixed with the fingers 7 and are without any problems splinted. Then the suspension 10 is placed in an upright position, connected to the attachment unit 2, the supporting rods 4 are attached to the frame 16 and tensioned to the stop by the lanyards 20 (the supporting rods 4 and the lanyards 20 are set in accordance with the accepted marking). After tensioning the supporting rods 4, the deflection of the ladder is not allowed. Next, the wire ropes of the fence 23 are stretched and the ladder assembled from the farms rises to the pylon of the overhead power line to the suspension point using an endless rope. The installation of the ladder is carried out in the following order: the ladder is suspended by the suspension 10, mounted on the central truss of the mounting platform 1, by means of the attachment point 2 to the crosshead of the support of the overhead line and from tipping is fixed with four guy wires 5 to the ground. The forces in the guy wires 5 are adjusted as the load moves from the middle of the ladder to the edges of the mounting platform 1, while one of the guy wires 5 is pulled, the other is weakened, but not more than 200 kg on one side of the mounting platform 1. The total force in the guy wires 5 should not exceed 700 kg, and the inclination angle of the guy wires 5 relative to the vertical 24 is chosen within the range of 0 ° ÷ 15 ° (the mechanical strength of the guy wires must correspond to the indicated loads).

The inventive ladder passed with positive results of mechanical strength test, is manufactured and delivered to an overhead power line.

Information sources

1. Description of the invention to copyright certificate No. 402978 "Device for repair of overhead power lines." N.A. Kalmykov, H02G 1/02, declared September 15, 1970, published October 19, 1973, Bulletin No. 42.

2. Description of the invention to copyright certificate No. 661669 "Device for mounting loops of overhead power lines." Krylov S.V. and others, H02G 1/02, claimed 10.09.1976, published 05.05.1979, Bulletin No. 17.

Claims (7)

1. A ladder for mounting fittings on wires, lightning protection cables and self-supporting cables of overhead power lines, comprising a mounting pad and a mount to a support, characterized in that the mounting pad is collapsible and consists of several trusses made depending on the length of the gangway and made of metal pipes and connected to each other by fixing fingers fixed in the holes of the connecting joints of the connected trusses, in the middle of the central truss of the mounting platform, a suspension is made, made in the form of a bent U-shaped pipe, the ends of the vertical struts of the U-shaped pipe are pivotally fixed in the eyes rigidly attached to the truss by means of fingers, the horizontal shelf of the U-shaped pipe is connected to the attachment point of the ladder to the support, consisting of a bracket, for the finger of which a horizontal shelf of the above pipes, a frame in the form of a flat plate and at least four supporting rods connecting the central and extreme trusses of the installation site, said supporting rods are connected to the installation platform through a tal Steps designed to control their tension during the installation of the ladder, and the ladder is equipped with guy wires to the ground with an adjustable force in each of them, fixed on the extreme trusses of the installation site and designed to fix the ladder from tipping over after hanging it on the support beam. 2. The ladder according to claim 1, characterized in that the installation site trusses are made of aluminum alloy pipes. 3. The ladder according to claim 1, characterized in that it is equipped with vertical struts with struts, to which supporting rods are fixed. 4. The ladder according to claim 1, characterized in that the supporting rods are made in the form of steel cables. 5. The ladder according to claim 1, characterized in that it is equipped with a fence made in the form of cables mounted on racks of the line supports. 6. The ladder according to claim 1, characterized in that the total force in guy wires to the ground should be no more than 700 kg. 7. The ladder according to claim 1, characterized in that the angle of inclination of the guy wires to the ground relative to the vertical is chosen within the range of 0 ÷ 15 °.

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