RU2435265C1 - Tension wedge clamp - Google Patents

Abstract

FIELD: electricity. ^ SUBSTANCE: tension wedge clamp for fixation of wires (ropes) 1 of air power transmission lines comprises a body 2, covers 3, wedges 4, 5, traction rods 6 and a helical protector 10. The external and internal surfaces of the protector 10 are processed with an abrasive and glue along their whole length or only in the area of wedges 4, 5 location. Besides, the abrasive with glue may also be applied onto surfaces of the wedges 4, 5 or only onto the inner surface of the protector 10 and simultaneously onto surfaces of the wedges 4, 5. Wire spirals of the protector 10 have opposite direction of winding relative to winding direction of external winding of wires in a wire (a rope) 1. The length of the protector 10 makes (1.015.0) of the selected length of the clamp body 2, diameter of the wires in spiral strands of the protector 10 equals (0.63.0) of the diameter of wires in the external winding of the wire (rope) 1, and pitch of the spiral strands in the protector 10 is selected as equal to (0.15.0) from the value of the wire (rope) 1 wires twisting pitch 1. ^ EFFECT: clamp is characterised with durability of operation, quite softly acts at a wire or a clamp, reducing specific pressure at their wires and providing reliable operation in process of their long-term operation. ^ 4 cl, 1 dwg

Description

The invention relates to the field of electric power, and more particularly to tension wedge clamps designed to secure the wires and cables of overhead power lines.

Known wedge clamp for securing the wires and cables of overhead power lines, comprising a housing with a cover, wedges placed in the housing, trunnions pivotally connected to rods and secured on the sides of the housing, while the housing is U-shaped with wedge protrusions the ends, the cover is provided with at least two wedge grooves, in cross section the same as the said projections of the housing, with the angles of inclination of the surfaces equal to the angles of inclination of the protrusions of the housing, so that when installed Application to the body cover is formed a rigid connection, the length of the housing _body L is selected depending on the maximum value of the wire diameter and determined from the relationship L _enclosure = (4,5 ÷ 6,5) d _pr.max, wedges formed in the troughs segmental shape with triangular protrusions angle α at their vertices equal to α = 20–30 °, located perpendicular to the longitudinal axis of the wire, the length l of which is calculated from the relation l = ( _0.8–1.0 ) d _pr.max , while the length of the wedge support part is L _wedges is received within the _wedges L = (6,8 ÷ 8,0) d _pr.max, while ensuring the sealing group etc. vodov with a range difference between the maximum and minimum values of their diameters in the range 2.5 ÷ 3.5 mm, where d _pr.max - the maximum value of the wire diameter, mounted in the clamp [1].

In this technical solution, to ensure the specified strength and structural characteristics of the clamp mounted on wires with a range of diameters from maximum to minimum, it is necessary to carry out rather complicated and lengthy calculations to select the optimal ratios of the body lengths, the supporting part of the wedges, the lengths and angles at the vertices of the segment protrusions in the gutters of wedges, etc., which certainly complicates and increases the cost of the design and manufacture of such clamps.

The closest technical solution in relation to the proposed one is a wedge clamp for securing wires and cables of overhead power lines, comprising a housing with covers, located in the housing of the wedges for installation on a wire or cable, pivotally attached to the rod housing, fastened to the other end [2] .

The main disadvantages of this well-known tension wedge clamp are as follows:

- insufficient durability of the clamp due to low resistance to the effects of alternating loads that occur during vibration, sub-vibrations and dancing of wires on overhead power lines;

- clamps of this type exert a high specific pressure on the wire of the wire or cable in the area of the wedges and thereby contribute to the destruction of the wire or cable, which reduces the reliability of the lines.

The applicant set himself the practical task of developing and introducing into serial production a qualitatively new design of a wedge clamp, which could withstand the effects of alternating loads arising on overhead power lines, would be highly operational, would not damage the wire or cable and would increase the reliability of the line . The indicated positive technical result was achieved through the use of a new set of essential design features of a tension wedge clamp, fixed in the following claims: a wedge clamp for securing wires and cables of overhead power lines, comprising a housing with covers located in the housing of the wedges for installation on a wire or a cable pivotally mounted on the thrust housing, fastened at the other end; it is equipped with a tread consisting of several spiral strands wound onto a wire or cable, on the outer and inner surfaces of the tread or only in the area of the wedges of the clamp or only on its inner surface is abrasive applied with glue holding the tread with the surfaces of the wires of the spiral strands, the tread length is determined depending on the length of the clamp housing with rods installed on it and is selected from the ratio (1.0 ÷ 15.0) of the length of the clamp housing, the diameter of the wires of the spiral strands of the tread is calculated taking into account the value of the diameter of the wires of the outer coil of the wire or cable and is selected from the ratio (0.6 ÷ 3.0) of the diameter of the wires of the outer coil of the wire or cable, the pitch of the spiral strands of the tread is chosen equal to (0.1 ÷ 5.0) of the step size twisting the wires of the wire or cable, while the length of the zone of gluing the abrasive to the tread surfaces is selected from the ratio (0.7 ÷ 12.0) of the length of the clamp body; tread wire spirals have a winding direction opposite to that of the outer winding of wire or cable wires; on the surface of the wedges, an abrasive is glued at their location on a wire or cable; the abrasive is glued only on the inner surface of the tread and at the same time on the surface of the wedges.

The invention is illustrated by the drawing, which shows a General view of the tension wedge clamp made in accordance with the present invention, a view perpendicular to the wire or cable line.

The proposed tension wedge clamp for securing wires (cables) 1 overhead power lines consists of a housing 2, closed by covers 3, located in the housing 2 of the upper and lower wedges 4, 5, pivotally mounted on the housing 2 rods 6, which are fastened at the opposite end by a finger 7 for connection to an insulating suspension line; the wedges 4, 5 are fastened together by a special bolt 8 and the fixture 9 for preliminary screed. A tread 10 is introduced into the construction of the clamp, which consists of several spiral strands wound onto a wire (cable) 1, so that the tread 10 extends over the entire length of the clamp, extending beyond its end parts (housing 2 and rods 6). In this case, the wedges 4, 5 are mounted directly on the tread 10. On the tread surface 10, an abrasive is applied in several layers and glued to the surface of the wires of its spiral strands with glue; an abrasive with glue can be applied to the outer and inner surfaces of the spiral strands not over the entire length of the tread 10, but only in the area where the upper and lower wedges 4, 5 of the clamp are located. In addition, the abrasive with glue can also be applied on the surface of the upper and lower wedges 4, 5 or only on the inner surface of the tread 10 and simultaneously on the surface of the upper and lower wedges 4, 5. The length of the zone of gluing the abrasive to the surfaces of the tread 10 is chosen equal to (0 , 7 ÷ 12.0) of the length of the housing 2 clamps. For wire spirals of the tread 10, the direction of winding is opposite to the direction of winding of the external winding of the wire (cable) 1. The length of the tread 10 is determined depending on the length of the housing 2 of the clamp with the rods 6 mounted on it and is (1.0 ÷ 15.0) of the selected body length 2 clamps. The diameter of the wires of the spiral strands of the tread 10 is calculated taking into account the diameter of the wires of the outer coil of the wire (cable) 1 and is equal to (0.6 ÷ 3.0) of the diameter of the wires of the outer coil of the wire (cable) 1; the pitch of the spiral strands of the tread 10 is selected equal to (0.1 ÷ 5.0) of the magnitude of the step of twisting the wires of the wire (cable) 1.

The installation of this tension wedge clamp is as follows. First, in the place on the wire (cable) 1 where the clip is to be mounted, the protector 10 is mounted, while the wire spirals of the protector 10 are wound in the opposite direction to the winding of the outer winding of the wire (cable) 1. The clip itself is then mounted according to standard technologies for mounting clamps of this type, not only on the wire (cable) 1, but directly on the protector 10 mounted on the wire (cable) 1. That is, on the protector 10 the housing 2 is pushed, the upper and lower wedges 4, 5 are inserted into it, which are fixed They are secured with a special bolt 8 and a device 9 (or several devices) for preliminary tightening of the wedges 4, 5, the housing 2 is pulled together by covers 3, rods 6 are attached to it, which are fixed on the other end by the finger 7. Then all the clamp fasteners are fixed and the clamp is suspended to the insulating suspension of an overhead power line.

The claimed tension wedge clamp is characterized by high reliability and durability, as it provides increased resistance to the effects of alternating loads due to the introduction of a spiral protector specially designed for this type of clamps with optimal design characteristics and parameters; in addition, the clamp acts on the wire or cable not by tightened wedges, but through a spiral protector, which significantly reduces the specific pressure on the wire of the wire or cable and, ultimately, does not lead to their destruction during prolonged use on overhead power lines; after mechanical testing of the clamp, it is supposed to be recommended for mass production and use on lines.

Information sources

1. Description of the invention to the patent of the Russian Federation "Tension wedge clamp" No. 2317621, H02G 7/02, claimed: 04.10.2006, published: 02.20.2008, Bulletin No. 5.

2. Description of the invention to the patent of the Russian Federation “Tension wedge clamp” No. 2368049, H02G 7/02, claimed: September 11, 2008, published: September 20, 2009. Bulletin No. 26.

Claims (4)

1. Tension wedge clamp for securing wires and cables of overhead power lines, comprising a housing with covers located in the housing of the wedges for installation on a wire or cable, pivotally mounted on the housing of the rod, fastened at the other end, characterized in that it is provided with a tread consisting of several spiral strands wound on a wire or cable, on the outer and inner surfaces of the tread or only in the area of the wedges of the clamp or only on its inner surface, an abrasive with glue is applied, fastening m protector with the surfaces of the wires of spiral strands, the length of the tread is determined depending on the length of the clamp body with the rods installed on it and is selected from the ratio (1.0 ÷ 15.0) of the length of the clamp body, the diameter of the wires of the spiral strands of the tread is calculated taking into account the diameter wires of the outer coil of the wire or cable and is selected from the ratio (0.6 ÷ 3.0) of the diameter of the wires of the outer coil of the wire or cable, the pitch of the spiral strands of the tread is chosen equal to (0.1 ÷ 5.0) of the value of the pitch of the twisted wire whether the cable, the length of the attaching area of the abrasive to the surfaces of the tread is selected from the relation (0,7 ÷ 12,0) of the length of the clip body. 2. The clamp according to claim 1, characterized in that the wire spirals of the tread have a winding direction opposite to that of the outer winding of the wire or cable wires. 3. The clamp according to claim 1, characterized in that the abrasive is glued to the surface of the wedges at their location on a wire or cable. 4. The clamp according to claim 1, characterized in that the abrasive is glued only to the inner surface of the tread and at the same time on the surface of the wedges.