RU2730249C1 - Supporting clamp of spiral type with power locks of stepped structure and shortened tread - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: supporting clamp of spiral type with power locks of stepped structure and shortened tread is intended for use on overhead transmission lines and fiber-optic communication lines. Supporting clamp comprises a boat made with a bottom bent at the central and end sections relative to the horizontal, a spiral tread enveloping the wire and at least two power strands with opposite direction of winding of spirals, wound directly above spiral protector and boat.

EFFECT: to save tread metal and power strands by reducing the structure length while maintaining the strength properties of the clamping force strands outside the tread are wound with transition to the wire, wherein power strands have different diameters in their central part, wound on the tread, and at ends wound on the wire.

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Description

The invention relates to the field of electric power, and can be used on overhead power lines and fiber-optic communication lines of voltages of 35-750 kV as supporting clamps for fastening wires / cables to intermediate supports.

Known clip for hanging wires of overhead power lines (RU 2508583, 2014), which consists of a boat, a suspension and a wire clamping mechanism in the form of L-shaped levers, pressing the wire to the boat's gutter, while the suspension is hinged to the boat. The boat is made of a non-magnetic alloy, which ensures openness of the magnetic circuit of the clamp and reduces losses due to magnetization reversal. In the version of the clamp with overvoltage limiter, the boat is made with an eyelet. In the clamp, as a rule, a spiral protector made of aluminum or aluminized wires is mounted. The clamp included in the split-phase wire suspension kit has a vertical bracket with horizontal protrusions and shoulders with trunnions engaging with grooves on the side surfaces of the boat. The trunnions are provided with tides to prevent the brackets from disengaging with the boat when pulling the wire vertically.

The closest analogue of the invention is a spiral supporting clamp for fastening wires and cables of overhead power transmission lines, or fiber-optic cables of communication lines, or cables embedded in a ground wire (RU 2231188, 2004). The clamp is made in the form of a boat, a spiral protector, strands of power spirals of the left and right directions of winding and suspension (fasteners). The strands are wound crosswise over the spiral protector, tightly pressing one another. The boat is made according to the special geometry of its shape, namely: the bottom of the boat is made curved in relation to the horizontal with a certain radius of curvature at the central and end sections of its length; the length of the boat is not less than ten diameters of the fixed wire; the holes on the side walls of the boat are displaced horizontally relative to the vertical axis of symmetry of the clamp.

The disadvantages of the known device are the following. First of all, the power strands are mounted along their entire length on the protector without going over to the wire. In this case, to avoid pulling the clamp relative to the wire, a large length of the structure is required - L _P , reaching in some cases from 1.5 to 2.5 meters.

The technical problem solved by the invention is to reduce the consumption of materials and dimensions of the device, while maintaining reliability during operation.

The claimed invention, like the closest analogue, is a spiral-type supporting clamp containing a boat made with a bottom curved relative to the horizontal, a spiral protector covering the wire and at least two power strands with left and right directions of spiral winding wound over the spiral protector.

The above technical problem is solved due to the fact that the power strands in their middle part are wound onto the boat and the protector, then directly onto the protector with the transition at the ends to the wire, while the power strands have different diameters (conditional "stepped design"): in the central of its part in contact with the protector, the diameter of the power strands is larger, while outside the boat the inner diameter of the power strands corresponds to the outer diameter of the tread, and at the ends when switching to the wire, the diameter is smaller - the inner diameter of the power strands corresponds to the outer diameter of the wire.

The technical result, which is achieved by the claimed invention, consists in a significant saving of the tread metal and power strands by reducing the length of the structure while maintaining all the necessary performance properties of the clamp inherent in the closest analogue. Namely, the required strength characteristics for pulling are achieved due to the transition of the power strands to the wire with a corresponding decrease in their inner diameter of winding, while the winding of the power strands, performed crosswise, further enhances this effect. Due to the proposed design, the power strands tightly press the protector spirals to the wire and, by reducing the diameter of the strands when switching to the wire, reliably keep the clamp from moving relative to the wire, which makes it possible to reduce the protector length and also to reduce the length of the power spirals.

In a preferred embodiment, an abrasive with an adhesive backing is applied to the inner surface of the boat. This allows you to increase the friction force between the tread and the boat and, all other things being equal, to further reduce the length of the power strands. Individual spirals of the tread can be collected in strands and glued with the application of abrasive materials, which also makes it possible to reduce the length of the power strands, since such a design further increases the frictional force that occurs between the tread and the boat.

The design of the supporting clamp ensures the safety of the wires of the external winding of the wire at the exit from the clamp boat. In addition, the device has good vibration resistance. The clamp is reliable in operation on overhead power lines.

The invention is illustrated by drawings.

FIG. 1 shows the closest analogue - a supporting clamp of a spiral type with power strands of constant diameter.

FIG. 2 shows the claimed supporting clip of the spiral type with power strands of "stepped structure" passing from the protector to the wire.

FIG. 3a and 3b show the boat of the claimed support clamp.

In the drawings, the numbers indicate:

1 - wire (ground wire, optical cable);

2 - boat;

3 - protector;

4 - lower power strand;

5 - upper power strand;

6 - fasteners to structural elements of the transmission line support;

7 - abrasive with an adhesive base, applied to the inner surface of the boat

The clamp is made in the form of a boat 2 with a length L _L , a spiral protector with a length L _PR , shortened compared to the length of the tread of the closest analogue (see Fig. 1), lower 4 and upper 5 power strands L _C with opposite to each other, right and left , directions of winding.

The fastener 6 of the boat 2 is made in the form of a threaded pin with a nut and a cotter pin, or in the form of a finger with a cotter pin (see Fig. 2, 3a, 3b). Power strands 4 and 5 in their middle part are wound onto protector 3 and boat 2, then directly onto protector 3 with an inner winding diameter corresponding to the diameter of the protector D _PR , and at the ends the power strands 4 are transferred to wire 1 with an inner winding diameter corresponding to the diameter wires D _P. As a result, the power strands 4 and 5 have different diameters in their central part, wound on the protector 3, the diameter is larger, and at the ends when switching to wire 1 it is smaller ("stepped design").

The bottom of the boat 2 is made curved with respect to the horizontal with a radius of curvature R ₁ at the end sections and with a radius of curvature R ₂ in the central section (Fig. 3a). On the inner surface of the boat 2, at its bottom, in a preferred embodiment, an abrasive 7 with an adhesive base is applied. Additionally, individual spirals of the protector 3 can be collected in strands and glued with the application of abrasive materials, which, all other things being equal, further reduce the length of the power strands 4 and 5.

Claims (3)

1. Supporting clamp of a spiral type, containing a boat made with a bottom bent at the central and end sections with respect to the horizontal, a spiral protector covering the wire and at least two power strands with opposite direction of winding spirals wound over the boat and the protector and directly over the spiral protector, characterized in that the power strands outside the tread are wound on the wire, while the power strands have different diameters in their central part and at the ends wound on the wire. 2. Support clamp according to claim. 1, characterized in that the bottom of the boat is glued with the application of abrasive materials. 3. Support clamp according to claim 1 or 2, characterized in that the individual spirals of the protector are collected in strands and glued with the application of abrasive materials.

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