RU217781U1 - Spiral Tension Clamp - Google Patents

Abstract

The utility model relates to the field of electric power industry and can be used on overhead power lines and fiber-optic communication lines as tension clamps for fastening wires/cables to supports, namely for tension suspension of self-supporting optical cables not only with one power strand, but also with two power strands of large size for increased loads up to 450 kN. Spiral tension clamp for fastening wires and cables on overhead power lines and fiber-optic communication lines, forming a U-shaped loop in the middle part with a corresponding thimble inserted into it, attached through connecting elements to the line support, the thimble in cross section is made in the form of the letter " U", holes are made in the thimble, in which a pin or a bolt with a cotter pin is installed for fastening to the line support through the connecting elements, the length of the thimble using power strands with increased load is calculated by the formula:

where B is the width of the thimble, D is the diameter of the hole in the walls of the thimble for a bolt or pin, t is the wall thickness of the thimble, Ps is the specific breaking load for steel per 1 mm, kN. The proposed technical solution makes it possible to increase operational reliability, service life, improve protection against the compressive force acting on the cable under large horizontal loads that occur during cable operation, eliminate compressive loads on the optical fiber, and, accordingly, improve the quality of the transmitted information by eliminating the excess of the permissible norm signal attenuation, and also provides the versatility of its use. 2 ill.

Description

The utility model relates to the field of electric power industry and can be used on overhead power lines and fiber optic communication lines as tension clamps for fastening wires/cables to supports, namely for tension suspension of self-supporting optical cables not only with one power strand, as was previously , but also with two large power strands for increased loads up to 450 kN.

A spiral tension clamp is known, made in the form of spirals twisted into a strand, consisting of at least two branches wound on a wire or cable, and forming a U-shaped loop in the middle part of the strand with a thimble inserted into it, attached through the connecting elements to the support of the overhead line [Description to the patent of the Russian Federation No. 2272346 "Spiral tension clamp", H02G 7/02, declared on 07/29/2004, published on 03/20/2006].

The disadvantages of this clamp include the possibility of damage to the wire or cable by the wires of the U-shaped loop of the clamp when the value of the tensile load changes at the point of contact with the branches of the power strand and damage the wire.

Known spiral tension clamp for anchoring wires and cables of overhead power lines, or fiber optic cables of communication lines, or cables built into a ground wire, containing wound on a wire, or cable, or cable, at least two strands of wire spirals with opposite each other by the direction of the winding, consisting of two branches each, the strands are woven one into the other and bent into a single U-shaped structure, forming a mounting loop at the bend, located on one thimble, while between the strands of wire spirals woven one into the other there is a protective cushion an insert to prevent excessive compressive loads between the strands, and the winding angle of the wire spirals woven into one another is different. Strands of wire spirals having the opposite direction of winding are made of wire of different diameters and made of wire of different materials [Description of the patent of the Russian Federation No. ].

The main disadvantage of the known design is the absence of a protector along the entire length of the cable, and when using a clamp with two power strands, a protector is used at increased loads. However, if the power strands in this case can withstand significant loads, then the thimble is limited in terms of breaking load (in Russia, a maximum of 160 kN).

A spiral tension clamp is known for fastening wires and cables of overhead power lines on line supports, made in the form of spirals twisted into a strand, consisting of at least two branches wound on a wire or cable, and forming a U-shaped strand in the middle part. loop with a thimble inserted into it, attached through connecting elements to the line support, is equipped with a protector made in the form of individual wire spirals or in the form of several strands of spirals made of steel wire with a protective anti-corrosion coating or aluminum alloy wire, or corrosion-resistant alloy, or from plastic polymer material, or in the form of tape spirals made of metal aluminum or corrosion-resistant tape, or polymer tape, while the protector is mounted on a section of wire or cable free from wound loop branches under the U-shaped loop close to the wound branches of the spiral and has a direction of winding, coinciding or opposite compared to the direction of winding of the wires of the upper layer of the wire [Description of the patent of the Russian Federation No. 2014].

Known spiral tension clamp for fastening wires and cables on overhead power lines and fiber optic communication lines, made in the form of one or two power spiral strands with a protector, and forming in the middle part of a U-shaped loop with a corresponding thimble attached to it, attached through connecting elements to the line support, the thimble in cross section is made in the form of the letter “U”, the lower part of the thimble is concave inward with a radius under the loop of the power strand, which is calculated based on the diameter of the twisted part of the power strand, according to the formula R=(3⋅dpr⋅): 2, where dpr is the diameter of the wire from which the power strand is made, and the thimble is made by stamping from sheet steel, holes are made and located coaxially on the thimble walls, in which a pin or a bolt with a cotter pin is installed for fastening to the line support through the connecting elements, while the length of the thimble depends on the load characteristic of the helical tension clamp, and the wall thickness "t" and the width "B" of the thimble are calculated by the formula (BD)⋅t)⋅Ps, where B is the width of the thimble, D is the diameter of the hole in the walls of the thimble for a finger or bolt, t is the wall thickness of the thimble, Ps is the specific breaking load for steel per 1 mm ² from which the thimble is made by stamping [Description to the patent of the Russian Federation No. , published on November 20, 2016].

The main disadvantage of these helical tension clamps is that when high tensile forces up to 450 kN are reached, compressive forces occur at the point where the power strand leaves the cable, and in this case the protector will not protect the self-supporting cable from compressive load. The cable sheath will be pressed through and will affect the optical fiber. The compressive loads arising in this case have a negative effect on the optical fiber located in the cable, and as a result, there is a significant excess of the allowable attenuation rate of the optical signal.

The technical result of the proposed technical solution is to increase the operational reliability, increase the service life, improve protection against the compressive force acting on the cable under large horizontal loads that occur during cable operation, eliminate compressive loads on the optical fiber, and, accordingly, improve the quality of the transmitted information by elimination of exceeding the allowable attenuation rate of the signal, as well as the proposed design ensures the versatility of its use.

This goal is achieved in that the spiral tension clamp for fastening wires and cables on overhead power lines and fiber-optic communication lines, forming a U-shaped loop in the middle part with a corresponding thimble inserted into it, attached through connecting elements to the line support, the thimble in section is made in the form of the letter “U”, holes are made in the thimble in which a pin or a bolt with a cotter pin is installed for fastening to the line support through the connecting elements, the length of the thimble using large power strands with increased load is calculated by the formula:

where B is the width of the thimble, D is the diameter of the hole in the walls of the thimble for a bolt or pin, t is the wall thickness of the thimble, Ps is the specific breaking load for steel per 1 mm ² , kN.

The analysis of the prior art carried out by the applicant, including the search for patent and scientific and technical sources of information, made it possible to establish that the applicant did not find an analogue characterized by features identical to all the features of the claimed utility model.

The geometry of the thimble and the increase in its length, calculated according to the above formula, make it possible to ensure the versatility of its use, operational reliability and protection of the cable, as well as the quality of transmitted signals, increase the service life of overhead power lines and fiber optic communication lines.

The essence of the utility model is illustrated by the drawings, where in Fig. 1 shows a general view of a spiral tension clamp for fastening wires and cables on overhead power lines and fiber optic communication lines with two power spiral strands; in fig. 2 - thimble (side view, front view, view without bolt or pin).

Spiral tension clamp for fastening wires and cables on overhead power lines and fiber-optic communication lines includes spiral power strands 1 and 2, with protector 3 and cable 4. Spiral power strands 1 and 2 form a U-shaped loop in the middle part with an embedded in it with a thimble 5, which is fixed through the connecting elements to the line support.

The thimble 5 in cross section is made in the form of the letter "U", the lower part of which is concave inward with a radius under the loop of the power strands 1, 2, which is calculated based on the diameter of the twisted part of the power strand 1.

The thimble 5 is made by stamping from sheet steel, on the walls of the thimble holes 6 are made and located coaxially, in which a pin or bolt 7 with a cotter pin 8 is installed for fastening to the line support through the connecting elements.

The length L of the thimble 5 using large power strands with increased load is calculated by the formula:

where B is the width of the thimble, D is the diameter of the hole in the walls of the thimble for a bolt or pin, t is the wall thickness of the thimble, Ps is the specific breaking load for steel per 1 mm ² , kN.

The distance between the walls of the thimble, the hole 6 for the “finger” and the pin 7 itself correspond to the tonnage rows according to GOST 11359-75 “Linear fittings. A number of breaking loads.

The increased length makes this thimble universal, which allows it to be used not only with one power strand, but also with two large power strands for increased loads up to 450 kN. Previously it was possible to use double power strands up to 120 kN. The increased length allows, without installation difficulties, to place two power strands in the thimble for heavy loads.

The proposed design of the thimble 5 is designed for any type of helical tension clamp for fastening wires and cables of overhead power lines and fiber-optic communication lines.

It should be noted the advantages of the proposed design of the thimble made by stamping over the thimble made by casting.

The use of the proposed design of the spiral tension clamp will generally ensure the versatility, operational reliability of cable protection and the quality of transmitted signals, increase the service life of overhead power lines and fiber-optic communication lines.

Claims (3)

Spiral tension clamp for fastening wires and cables on overhead power lines and fiber-optic communication lines, forming a U-shaped loop in the middle part with a corresponding thimble inserted into it, attached through connecting elements to the line support, the thimble in cross section is made in the form of the letter " U", holes are made in the thimble, in which a pin or a bolt with a cotter pin is installed for fastening to the line support through the connecting elements, characterized in that the length of the thimble using power strands with increased load is calculated by the formula:

where B is the width of the thimble, D is the diameter of the hole in the walls of the thimble for a bolt or pin, t is the wall thickness of the thimble, Ps is the specific breaking load for steel per 1 mm ² , kN.

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