RU2175805C1 - Spiral supporting clamp - Google Patents

Abstract

FIELD: power engineering; attachment of fiber-optic cables on overhead power transmission lines, railway contact systems, and the like. SUBSTANCE: supporting clamp designed for securing fiber-optic cable on up to 10 kV power transmission lines, railway contact systems, lighting lines, contact systems for electrified vehicles, and communication lines with span length up to 110 m and route angle of turn up to 10 deg. has spiral protector, left- and right-hand strands in the form of set of power coils glued together and provided with abrasive layer on their inner surfaces. Strands are wound in crosswise manner on spiral protector which is, in its turn, wound on cable. Pitch and diameter of power coils of left- and right-hand strands are chosen from definite equation including installation and wiring conditions and specified strength of cable clamping. Cable is reliably clamped throughout entire length due to uniform distribution of stiffness. EFFECT: enhanced no-trouble life; improved safety of cable under various operating conditions. 2 dwg, 1 tbl

Description

The invention relates to the field of electric power and communication technology, and more specifically to supporting clamps of a spiral type for supporting fastening of a fiber optic cable on supports of overhead power transmission lines up to 10 kV, contact networks of railways, lighting, ground electric vehicles and communications with spans up to 110 m and corners of turns of the route to 10 ^o .

 Known supporting clamp spiral type used to secure fiber optic cables overhead communication lines and wires of overhead power lines, containing a suspension made in the form of a clamp, and a spiral protector covering the cable or wire [1].

The following disadvantages are inherent in this clip:
- does not provide the necessary strength to seal the cable or wire, since the spiral tread for a considerable length passes along the clamp and does not fasten the wire (cable) directly with its spirals;
- for the aforementioned reason, slipping of the wire or cable in extreme operating conditions is possible, and consequently their damage.

 The closest technical solution in relation to the proposed one is a spiral-type support clamp for attaching fiber optic cables to the supports of overhead power lines, comprising a suspension made in the form of a boat pivotally connected to an intermediate link, a spiral protector covering the cable, and at least two strands drawn from several power spirals wound over a spiral tread [2].

 This design does not provide an even distribution of stiffness along the entire length of the clamp; the stiffness in the region of the suspension will be less than at the edges of the spiral tread, which, ultimately, will reduce the life of this clip.

 The authors and the applicant, ZAO Elektrosetstroyproekt, set themselves the technical task of developing a supporting clamp of a spiral type, which has significant advantages over known clamps of a similar purpose.

 The claimed invention allows to achieve a positive technical result, expressed, in particular, in increasing the service life of the clamp by ensuring an even distribution of stiffness along the entire length of the clamp.

 The noted technical result is achieved through a combination of essential structural features of the new clamp, namely: a spiral-type clamp for attaching fiber optic cables to the supports of overhead power lines contains a suspension made in the form of a boat pivotally connected to an intermediate link, a spiral protector covering the cable, and at least two strands, composed of several power spirals, wound over a spiral tread, and on the side surfaces of lods A trapezoidal groove is made through the groove, one of the strands is located on the spiral tread with the left direction of winding the power spirals, and the other with the right direction of winding the power spirals so that they are wound crosswise on the spiral tread, while the power spirals of these strands are connected by glue and an abrasive is applied to their inner surfaces, the ratio of the pitch to the outer diameter of the power spiral of the strand with the left winding direction lying in the range from 5 to 7, and the ratio of the pitch to the outer diameter meter power spiral strands with the right direction of winding is in the range from 4.5 to 6.

 The invention is illustrated by drawings, where in FIG. 1 is a general view of a spiral-type support clamp made in accordance with the present invention, a cross-sectional view of the cable, and also a section AA along arrows A in a general view; in FIG. 2 is a general view of the clamp in a disassembled state, which shows its individual elements.

A spiral-type support clamp for attaching a fiber optic cable 1 to supports (not shown) of overhead power lines includes:
- tread 2, made of spiral strands 3 (from 3 to 5); the wires in the strands 3 are connected with adhesive tape (not shown) or glued together;
- the left strand 4, consisting of several power wire spirals that are connected by glue, and an abrasive is applied to their inner surface;
- the right strand 5, consisting of several power wire spirals that are connected by glue, and an abrasive is applied to their inner surface;
- suspension in the form of a boat 6 and an intermediate link 7, interconnected by a hinge (bolt 8 with nut 9, which can be replaced with a rivet, washer and cotter pin).

 A through groove 10, for example, of a trapezoidal shape, is made on the lateral surfaces of the boat 6, and the strands 4, 5 are located on the spiral tread 2 crosswise.

 To ensure optimal conditions for mounting the clamp and achieving a normalized value of the termination strength P (P = 3.0 kN) of cable 1, the clamps are selected by calculation or experimentally, the ratios of the pitch to the outer diameter of the spiral in the left and right strands 4, 5. For example, the ratio of pitch s to the outer diameter d of the spiral of strand 4 with the left winding direction is in the range from 5 to 7, at the same time, the same ratio for the spiral of strand 5 with the right winding direction is from 4.5 to 6. How does the value of this ratio of the spiral pitch to diameter change? spirals, depending on the strength of the cable termination in the clamp, can be seen from the table.

 The indicated ratios show that the greater the s / d value, the less the termination strength P of the cable 1 in the clamp is less, while the decrease in the s / d ratio complicates the mounting conditions of the clamp until it is impossible to hold it.

 The assembly of the proposed clamp is as follows.

 Clean and wipe the cable 1 at the place of installation of the clamp. The first strand 3 of the tread 2 is applied to the cable 1 so that the mark in the middle of the strand 3 coincides with the location of the suspension point and wrap it on the cable 1. Then each subsequent strand 3 is wound on the cable 1 with respect to the previous strand 3 so that it is pressed close to it, while avoiding overlapping strands 3 and wires, as well as bulging wires more than 1 mm. To prevent damage to the sheath and fibers of the optical cable 1, the ends of the strands 3 of the tread 2 are bent during their manufacture. When winding strands 3, the displacement of the ends relative to each other by 15-20 mm is allowed.

 After winding the tread 2 onto cable 1, the strands 3 are mounted. Cable 1 with the spiral tread 2 wound thereon is inserted into the boat 6 in the place of suspension of cable 1 (the central mark on the strands 3 of the tread 2, which is wound first). Then insert the left strand 4 into the groove 10 of the boat 6, combining the center mark of the left strand 4 with the center mark of the strand 3 of the tread 2 and the center of the boat 6. Then, the left strand 4 is wound on the cable 1 on both sides of the boat 6. In the same way, insert the right strand 5 in the groove 10 of the boat 6, combining the marks of the left and right strands 4, 5, and winding the right strand 5 on the cable 1. Both strands 4 and 5 are wound crosswise. The last operation of the clamp assembly is to connect the boat 6 to the intermediate link 7 using a bolt 8 and a nut 9 or some other fasteners.

 The proposed spiral-type clamp differs from similar known constructions in its reliability and durability, ease of installation and manufacturability; it provides the normalized strength of cable termination due to the equal rigidity of the structure, evenly distributed along the entire length of the clamp; the clamp is commercially available from Elektrosetstroyproekt CJSC and is widely used for fastening fiber-optic cable on pylons of overhead power lines up to 10 kV, contact networks of railways, city lighting, ground electric transport and communications.

Sources of information
[1] US patent N 3684221, CL. 248-63, 1972.

 [2] RF Patent N 2058641, H 02 G 7/05, 04.20.96.

Claims (1)

 A support clamp of a spiral type for attaching fiber optic cables to the supports of overhead power lines, containing a suspension made in the form of a boat articulated with an intermediate link, a spiral protector covering the cable, and at least two strands composed of several power spirals, wound on top of the spiral tread, characterized in that a trapezoidal groove is made on the lateral surfaces of the boat, one of the strands is located on the left-side spiral tread alignment of the windings of the power spirals, and the other with the right direction of winding the power spirals so that they are wound crosswise on the spiral tread, while the power spirals of the indicated strands are glued and abrasive is applied to their inner surfaces, with the ratio of the pitch to the outer diameter of the power spiral of the strand with the left direction of the winding is in the range of 5 - 7, and the ratio of the pitch to the outer diameter of the power spiral of the strand with the right direction of the winding is in the range of 4.5 - 6.

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