RU2392715C1 - Support clamp - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to power industry, in particular to support clamps for fixation and suspension of optical self-bearing communication cables on supports of overhead power transmission lines. Clamp comprises lower layer (2) of separate wire spirals with circular loop (3) in its medium part, to which clamp is fixed to support of overhead power transmission line, and upper layer (4) of separate wire spirals. Diametre of layer (2) is less than diametre of layer (4). Wire spirals of layer (2) are wound directly onto optical cable (1), and wire spirals of layer (4) are wound over turns of the first layer (2) and pass through circular loop (3), tightly pressing lower layer (2) and circular loop (3) to optical cable (1); directions of layers (2) and (4) winding are opposite, which provides for required strength of cable (1) installation in clamp. Length of wire spirals of layer (4) is calculated according to a certain ratio. Wire spirals of lower and upper layers (2) may be joined in strands of parallel spirals by means of glue composition, and abrasive may be applied onto surface of strands facing surface of optical cable (1). Abrasive may be applied onto surface that faces surface of optical cable (1).

EFFECT: clamp is simple in design, low-cost, provides for rated strength of optical cable installation, reliable in process of operation.

7 cl, 1 dwg

Description

The invention relates to the field of electric power and can be used as a supporting clip for fixing and suspending optical self-supporting communication cables on the supports of overhead power lines.

A support clip is known for suspending an optical self-supporting non-metallic communication cable on overhead power transmission towers, comprising a suspension, a spiral protector, a strand of power wire spirals consisting of at least two branches wound over a cable and a loop fixed to the suspension; the spiral protector and a strand of power wire spirals are located in a sheath made of a plastic coating layer, the spiral protector is wound onto the cable so that the turns of the tread are located between the turns of the branches of the wire strands, the length of the spiral protector depends on the length of the wire strands and is selected from ratios: 0.3 ÷ 1.1 [1].

This variant of the known supporting clamp includes a suspension made in the form of a disk with a groove along its circular surface or in the form of an Ω-shaped profile with a groove along its circular perimeter, which leads to a significant complication of the design of the clamp, and consequently, an increase in manufacturing costs and ultimately to a rise in price of the supporting clamp.

The closest technical solution in relation to the proposed one is a support clip for hanging an optical self-supporting communication cable on overhead power transmission towers, comprising twisting individual wire spirals wound onto the cable, made in its middle part with a circular loop for attaching the clip to the line support [2].

This support clip does not contain a suspension, and the clip is attached to the line support directly behind the circular loop provided in the middle part of the coil of wire spirals, which greatly simplifies the design of the support clip. At the same time, the suspension for the clamp loop in this design does not guarantee the reliability of the clamp, especially with strong wind and icy influences, since the cable termination strength in the clamp is insufficient.

The applicant was given the technical task to develop a support clamp for hanging an optical self-supporting communication cable on the supports of overhead power lines of a simple but reliable design that provides standard strength of cable termination in the clamp and a long service life (up to 25 years). The specified technical result was achieved due to a new set of essential design features presented in the following wording of the claims: “support clamp for suspending an optical self-supporting communication cable on the supports of overhead power lines, containing individual wire spirals wound onto the cable, made in its middle part with circular loop for attaching the clamp to the line support; the clamp is provided with an additional upper coil of individual wire spirals of a larger diameter than the diameter of the wire spirals of the first lower coil, wound in the opposite direction over the turns of the first lower coil and passing through its circular loop, fixing the first lower coil of wire spirals located on the optical cable with its circular loop, the length L _{2 of the} wire spirals of the additional upper winding is determined by no more than the length L _{1 of the} wire spirals of the first lower winding from the relation: L ₂ = (0.6 ÷ 1.0) L ₁ ; the lower winding of individual wire spirals has a left winding direction, and the additional upper winding of individual wire spirals has a right winding direction; the lower winding of the individual wire spirals has a right winding direction, and the additional upper winding of the individual wire spirals has a left winding direction; lower spiral wire spirals are connected into strands of parallel spirals by means of an adhesive composition; an abrasive is applied to the surface of the strands of the lower tuft facing the surface of the optical cable; wire spirals of an additional upper layer are connected in strands of parallel spirals by means of an adhesive composition; an abrasive is applied to the surface of the strands of the additional upper layer, facing the surface of the optical cable. ”

The invention is illustrated by the drawing, which shows a General view of a support clip made according to the present invention, a front view, perpendicular to the optical cable.

The inventive support clip for hanging an optical self-supporting communication cable 1 on the supports of overhead power transmission lines consists of a lower coil of 2 separate wire spirals with a circular loop 3 in its middle part, for which the clip is attached to a support of the overhead power transmission line of the line, and an upper coil of 4 separate wire spirals . The coil 2 is made of wire spirals of a smaller diameter than the diameter of the wire spirals of the coil 4. The wire spirals of the coil 2 are wound directly on the optical cable 1, and the wire spirals of the coil 4 are wound on top of the turns of the coil 2 and pass through a circular loop 3, pressing firmly against the optical cable 1 lower twist 2 and circular loop 3; the winding directions of coils 2 and 4 are opposite, namely, if the cove 2 has the left direction of winding, then the cove 4 has the right direction of winding, and vice versa, which ensures the required termination strength of cable 1 in the clamp. The length L _{2 of the} wire coils of the cove 4 is selected depending on the length L _{1 of the} wire coils of the cove 2 and is determined from the following ratio: L ₂ = (0.6 ÷ 1.0) L ₁ .

The lower spiral wire 2 spirals can be joined into strands of parallel spirals by means of an adhesive composition, and an abrasive can be applied to the surface of the strands facing the surface of the optical cable 1.

Similarly, the wire spirals of the upper coil 4 can be connected into strands of parallel spirals by means of an adhesive composition, and an abrasive can be applied to the surface of the strands facing the surface of the optical cable 1.

Mounting the clamp is as follows.

Optical cable 1 is cleaned and degreased at the place of installation of the clamp. The lower wire spirals are applied to the cable 1 from above so that the loop 3 is located in the suspension place, the wire spirals are wound onto the cable 1 on one side of the loop 3 and the same operation is performed with the wire spirals along the other side of the loop 3, forming the lower winding 2. Then, the upper wire spirals are pushed into the loop 3, aligning their middle with the middle of the loop 3, and the upper wire spirals are wound onto cable 1 over the lower wire spirals of the twin 2 one side of the loop 3, the spirals of the individual coiled wire must be laid without overlaps; the same operations with the upper wire spirals are done on the other side of the loop 3, forming the upper winding 4. After the windings 2, 4 are mounted on cable 1, the clamp for loop 3 is suspended from the support by means of a clamp, staple or some other linear reinforcement overhead power line.

The proposed support clip for suspension of an optical self-supporting communication cable on the supports of overhead power lines is characterized by simplicity of design, low manufacturing costs, provides the necessary strength of termination of the optical cable, does not affect the optical properties of the cable and is reliable during operation. The clamps have been tested, mass-produced and delivered to power facilities.

Information sources

[one]. Description of the invention to patent No. 2313873 "Support clip", cl. H02G 7/05 claimed September 19, 2006, publ. July 27, 2007 Bulletin No. 36.

[2]. US patent "Cable protector" No. 2230611, CL. 248-63, publ. 02/04/1941

Claims (7)

1. A support clip for suspending an optical self-supporting communication cable on the supports of overhead power lines, comprising a coil of individual wire spirals wound onto the cable, made in its middle part with a circular loop for attaching the clip to the line support, characterized in that the clip is provided with an additional upper coil of individual wire spirals of a larger diameter than the diameter of the wire spirals of the first lower winding, wound in the opposite direction over the turns of the first lower winding and passing through ithout its circular loop, fixing the optical cable located at the first bottom coils of coiled wire, with its circular loop, the length L ₂ additional coiled wire helix is determined by a maximum length L ₁ of the first coiled wire helix of the lower ratio: L ₂ = (0.6 ÷ 1,0) L ₁ . 2. The clamp according to claim 1, characterized in that the lower winding of individual wire spirals has a left winding direction, and the additional upper winding of individual wire spirals has a right winding direction. 3. The clamp according to claim 1, characterized in that the lower winding of the individual wire spirals has a right winding direction, and the additional upper winding of the individual wire spirals has a left winding direction. 4. The clamp according to claim 1, characterized in that the lower spiral wire spirals are connected in strands of parallel spirals by means of an adhesive composition. 5. The clamp according to claim 4, characterized in that an abrasive is applied to the surface of the strands of the lower layer, facing the surface of the optical cable. 6. The clamp according to claim 1, characterized in that the wire spirals of the additional upper winding are connected in strands of parallel spirals by means of an adhesive composition. 7. The clamp according to claim 6, characterized in that an abrasive is applied to the surface of the strands of the additional upper winding facing the surface of the optical cable.