RU77729U1 - WEDGE ANCHOR CLAMP - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to anchor wedge clamps intended for (mounting) suspension of self-supporting insulated wires to the supports of overhead power transmission lines with voltage up to 1.0 kV, switchgears, connection, tension, support and fixing at a given distance of wires . The wedge-shaped clamp comprises a housing equipped with ribs and a central partition, wedge inserts for placing wires made with four arcuate grooves, and with the possibility of fixing and sliding along the outer guides of the housing, in the holes of which a removable springy arch is fixed, while the housing and wedge inserts are made fiberglass reinforced polyamide casting. In the clamp, the central partition of the case is made with a slope, and a removable springy arch is made of wire with a diameter of 3-4.5 mm and a length of 200-250 mm. The clamp provides sufficient clamping force and uniform tension of all wires in the suspension under conditions of increased tensile loads. 5 p. Formulas 3 illustrations.

Description

The utility model relates to the field of electrical engineering, namely to anchor wedge clamps intended for (mounting) suspension of self-supporting insulated wires to the supports of overhead power transmission lines with voltage up to 1.0 kV, switchgears, connection, tension, support and fixing at a given distance of wires .

Known anchor clamp, designed for fastening 2 or 4 self-supporting insulated wires of subscribers to the supports of overhead power lines with voltage up to 1.0 kV. The clamp contains a housing equipped with ribs and a central partition, wedge liners, which are made by casting of polyamide or other materials reinforced with fiberglass. Wedge inserts for placing wires are made with four arcuate grooves having bumps for better friction and holding the wires. The housing is equipped with holes for mounting a removable spring bow made of wire with a diameter of 3 mm. (“Valves for self-supporting insulated wires (SIP up to 1 kV).” 2005/2006 catalog of Tuso Electronics Raychem GmbH. Germany, pp. 1-26).

However, the specified anchor clip when used to fasten subscriber’s wires to the supports of overhead power lines with large spans, that is, with large tensile forces does not provide sufficient clamping force (wires can slip between a smooth central partition) and uniform tension of all wires that are twisted with as a big step, as a result of which, with large tensile forces (additionally with strong winds, icing and snowfall), I will be primarily overloaded t more strained wires, which can lead to premature wear.

The present utility model is based on the task of creating such an anchor wedge clamp in which due to the introduction of new structural elements and their new relative position, sufficient clamping force and uniform tension of all wires in the suspension under the conditions of increased tensile loads would be ensured.

The problem is solved in that in the clamp with a wedge anchor, comprising a housing equipped with ribs and a central partition, wedge inserts for placing wires, made with four arcuate grooves, and with the possibility of fixing and sliding along the outer guides of the housing, in the openings of which a removable springy arch is fixed while the housing and wedge inserts are made by casting of a polymer reinforced with fiberglass, according to a utility model, the central partition of the housing is made with a slope m, and a removable springy bow is made of wire with a diameter of 3-4.5 mm and a length of 200-250 mm.

Due to the implementation of the inner central partition of the housing with a slope, and a removable springy arch of wire with a diameter of 3-4.5 mm and a length of 200-250 mm, a very strong wedge connection is obtained, which can withstand significant axial tension and uniform tension of all wires in the suspension in exposure to increased tensile loads.

The central partition of the housing can be made with a slope of at least 1/4 of its length, and in the places of attachment of the wire is made with convex drop-shaped elements, which significantly increases the friction between the wire and the partition and provides sufficient clamping force and uniform tension of all wires in suspension under conditions of increased tensile loads.

The central partition of the housing can be made at the attachment points of the wire rough, for example, in the form of bumps with a height of the order of 0.7-0.9 mm, which increases the friction between the wire and the rough surface and, therefore, increases the clamping force.

As the polymer can be taken polyamide reinforced with fiberglass, which has high strength, atmosphere and light resistance. The wire can be made of stainless steel, which significantly increases the tensile strength of the arm and its corrosion resistance.

The proposed wedge anchor clamp is schematically illustrated in FIGS. 1-3. Figure 1 shows the clip in front view, figure 2 is the same in top view, figure 3 is the same in side view. The figures show: 1 - body, 2 - ribs, 3 - central partition, 4 - wedge insert, 5 - removable spring bow, 6 - groove for wire, 7 - pimples on the groove, 8 - slope, 9 - convex drop-shaped elements.

The wedge-shaped clamp comprises a housing 1 provided with ribs 2 and a central partition 3, wedge inserts 4 for accommodating wires made with four arcuate grooves 6, and with the possibility of fixing and sliding along the outer guides of the housing 1, in the openings of which a removable springy arch 5 is fixed while the housing 1 and the wedge inserts 4 are made by injection molding of a polymer reinforced with fiberglass. The clamp is characterized in that the central partition 3 of the housing 1 is made with a slope of 8, and the removable spring arc 5 is made of wire with a diameter of 3-4.5 mm and a length of 200-250 mm.

Example. The wedge anchor clamp comprises a housing 1 provided with ribs 2 and a central partition 3, wedge inserts 4 for accommodating wires, made with four arcuate grooves 6, and with the possibility of fixing and sliding along the outer guides of the housing 1. The grooves 6 in the places of wire mounting are made pimples 7. The Central partition 3 of the housing 1 is made with a slope of 8 to 1/4 of its length, and in places of attachment of the wire is made with convex drop-shaped elements 9.

The housing 1 and the wedge liners 4 are made by casting of polyamide reinforced with fiberglass. In the housing 1, holes are made in which a removable springy arch 5 is made of stainless steel wire with a diameter of 4.0 mm and a length of 215 mm.

The work of the clamp is as follows. The clip using an easily removable bow 5 is fixed to the bracket and hook of the support of the overhead power line. Then the wedge inserts 4 are moved apart with respect to the housing 1 by the largest amount in order to miss the maximum diameter of the wire, for example, with a cross section of 4 × 25 mm ² . After that, the required tension of the wires is made, the wedge inserts 4 are moved relative to the housing 1, clamping the wires as much as possible between the slope 8 of the central partition 3 and the wedge inserts 4. In this case, the pimples 7 of the grooves 6 of the wedge inserts 4 and the convex drop-shaped elements 9 on the slope 8 of the central partition 3 in places of attachment of the wire will compress the wires as much as possible, preventing them from slipping out in the suspension, even at maximum tensile loads.

Claims (5)

1. Anchor wedge clamp, comprising a housing provided with ribs and a central partition, wedge inserts for placing wires, made with four arcuate grooves and with the possibility of fixing and sliding along the outer guides of the housing, in the openings of which a removable springy arch is fixed, while the housing and wedges the inserts are made by casting from a fiberglass-reinforced polymer, characterized in that the central partition of the body is made with a slope, and the removable springy arch is made of wires with a diameter of 3-4.5 mm and a length of 200-250 mm. 2. The clamp according to claim 1, characterized in that the central partition of the housing is made with a slope of at least 1/4 of its length, and at the points of attachment of the wire is made with convex drop-shaped elements. 3. The clamp according to claim 1, characterized in that the central partition of the housing is made in the places of attachment of the wire rough. 4. The clamp according to claim 1, characterized in that the polymer is a polyamide reinforced with fiberglass. 5. The clamp according to claim 1, characterized in that the wire is made of stainless steel.