RU198249U1 - ANCHOR CLAMP - Google Patents

Abstract

The utility model relates to the electric power industry, namely to anchor clamps for fastening self-supporting insulated wires, as well as insulated zero bearing conductors at the ends of the corner supports of overhead power transmission lines. The clamp includes a housing 1, wedges 2, 3, inserted into the cutout 4 of the housing 1 with the possibility of longitudinal movement in the housing 1, a flexible cable 6 with an arc thimble fixed on it 7. At the ends of the cable 6, thickenings are made in the form of truncated spherical surfaces 8, fixed in grooves 9 of the housing 1. On the inner surface of the wedges 2, 3, longitudinal recesses 10 are made with transverse ribbing 11. On the outer surface of the wedges 2, 3, guide recesses 12 are made for directed movement of the wedges. At the wide end of one of the wedges 2, two pins 14, 15 are turned from its outer side, facing the other wedge 3. From the outside of the wedges 2, 3, a guide element is made in the form of a T-shaped tide 16, which restricts and directs the movement of the pins 14 , 15. The clamp wedges are made of electrically insulating plastic that is resistant to ultraviolet radiation and temperature fluctuations; the body is made of metal with an anti-corrosion coating. The proposed anchor clamp is distinguished by higher technical characteristics in comparison with the known anchor clamp (prototype) in terms of its operational reliability, elimination of possible distortions and damage during installation and reduction of structural backlash of the clamp elements. 3 s.p. f-ly, 5 ill.

Description

The utility model relates to the field of electric power industry, namely to anchor wedge clamps for fastening self-supporting insulated wires, as well as insulated zero bearing cores at the ends of the corner supports of overhead power transmission lines.

Known anchor clip containing pads of aluminum alloy, a movable wedge connected to a steel arch, clamping cheeks with 4 arcuate grooves having transverse grooves to hold the wires, while the cheeks and movable wedge are spring-loaded and tightened with 2 bolts with washers, and the clamping cheeks and the movable wedge are made by casting of durable polymer, the clamping cheeks are made with 4 arcuate grooves for wires 39-95 mm ² , and the steel bow is made of wire 570-610 mm long [1].

The disadvantages of this anchor clamp are significant structural complexity, as well as a limited range of values of their cross-section of wires, for which you can quite effectively use the clamp of this design.

The closest technical solution in relation to the proposed one is an anchor clamp containing a housing, two wedges inserted into an open cutout of the housing and made with the possibility of longitudinal movement in the housing for clamping between its inner surfaces of the wire and its jamming, as well as a flexible three with fixed on it with an arc thimble, the ends of the flexible cable are fixed on the side walls of the housing, longitudinal half-cylindrical recesses with transverse ribbing are made on the inner surface of the wedges, guide recesses are made on the outer surface of the wedges designed for the directional movement of the wedges along the internal cutout in the housing along the pin protrusions in the internal cutout of the housing, while the recesses intended for the directed movement of the wedges along the internal cutout in the housing along the pin protrusions at the narrow end of the wedges are provided with sections with a transition to a shallower depth to limit the movement of the wedges [2].

Of the main disadvantages, it should be noted the lack of reliability of this clamp, both during operation and during installation (distortions and even destruction are possible), as well as large structural backlash.

The applicant set a specific goal, namely, to develop an anchor clamp for fastening self-supporting insulated wires, as well as insulated zero load cores at the ends of the angular supports of overhead power lines, characterized by higher technical characteristics in comparison with the known anchor clamp (prototype) in terms of its operational reliability, elimination of possible distortions and destruction during installation and reduction of structural backlash of the clamping elements. This positive technical result was achieved due to a new set of design features of the anchor clamp made in accordance with the present utility model and presented in the following utility model formula: “anchor clamp containing the housing, two wedges inserted into the open cut of the housing and made with the possibility of longitudinal movement in case for clamping between its inner surfaces of the wire and its jamming, as well as a flexible cable with an arc thimble fixed on it, the ends of the flexible cable are fixed on the side walls of the case, longitudinal recesses with transverse ribbing are made on the inner surface of the wedges, guide recesses are made on the outer surface of the wedges designed for the directional movement of the wedges along the internal cutout in the housing along the pin protrusions in the internal neckline of the housing, while the recesses intended for the directed movement of the wedges along the internal cutout in the housing along the pin protrusions, on a narrow the end of the wedges is equipped with sections with a transition to a shallower depth to limit the movement of the wedges; at the wide end of one of the wedges, at least two pins are made on its outer side, facing the other wedge, and at least one guide element in the form of a tide is made on the outside of the wedges, restricting and guiding the movement of the pins; the guide element is made in the form of a T-shaped tide; longitudinal recesses are made sector less than a half cylinder; longitudinal grooves are made in the form of an ellipse or faceted. "

The essence of the claimed anchor clamp is illustrated by drawings, where in FIG. 1 shows an assembly drawing of an anchor clamp made in accordance with the present utility model, front view; in FIG. 2 is a front, top, and side view of the clamp body of FIG. 1; in FIG. 3 shows separately the structural embodiment of the wedges of the anchor clamp in FIG. 1; in FIG. 4 is the same as in FIG. 3, a variant according to claim 2 of the utility model formula; in FIG. 5 is the same as in FIG. 3, a variant according to claim 3 of the utility model formula.

The inventive anchor clip comprises a housing 1, two wedges 2, 3 inserted into the open cutout 4 of the housing 1 with the possibility of longitudinal movement in the housing 1 for clamping between its inner surfaces of the wire 5 and its jamming, as well as a flexible cable 6 with an arc thimble 7 fixed to it At the ends of the flexible cable 6, thickenings are made in the form of truncated spherical surfaces 8, which are rigidly fixed in the grooves 9 on the side walls of the housing I.

On the inner surface of the wedges 2, 3, longitudinal recesses 10 are made with a transverse ribbing 11. On the outer surface of the wedges 2, 3, guide recesses 12 are made for directed movement of the wedges along the inner cutout 4 in the housing 1 along the pin protrusions in the inner cutout 4 of the housing 1 ( Fig. 2). Guide recesses 12, designed for the directional movement of the wedges 2, 3 along the inner cutout 4 in the housing 1 along the pin protrusions, at the narrow end of the wedges 2, 3 have sections 13 with a transition to a shallower depth to limit the movement of the wedges 2, 3. Longitudinal recesses 10 are performed sector smaller than a half-cylinder either in the form of an ellipse or faceted.

At the wide end of one of the wedges 2, two pins 14, 15 facing the other wedge 3 are made from its outer side. On the outside of the wedges 2, 3, a guide element is made in the form of a tide, for example, T-shaped 16, which restricts and directs the movement pins 14.15.

The clamp wedges are made of electrically insulating plastic that is resistant to ultraviolet radiation and temperature fluctuations, and the body is made of metal with an anti-corrosion coating.

The utility model works as follows. The clamp is supplied to the overhead power line: case 1 with wedges 2, 3 inserted in it, thimble 7 and flexible cable (tie) 6. For installation, the anchor clamp is installed on line 5 wire in an appropriate place, for which wedges 2, 3 are extended along the internal cutout 4 from the housing 1, the flexible cable 7 is inserted into the gutter of the spade 7, its ends in the form of truncated spherical surfaces 8 are rigidly fixed in the grooves 9 on the side walls of the housing 1, jamming the wire 5 with simultaneous fastening of the spade 7 on the overhead power line support.

The proposed anchor clamp for fastening self-supporting insulated wires, as well as insulated zero load conductors at the ends of the angular supports of overhead power lines, has higher technical characteristics in comparison with the known anchor clamp (prototype) in terms of its operational reliability, eliminating possible distortions and damage during installation and reducing the structural backlash of the clamping elements (due to the execution of one of the wedges on its outer side, for example, two pins facing the other wedge, and the execution of the wedges on the outside of the wedges in the form of a tide, which limits and directs the symmetrical movement wedges).

Sources of information

[1] Utility Model Patent No. 123245 “Anchor Clamp”, H02G 7/08, filed December 21, 2016, published December 20, 2012.

[2] Utility Model Patent No. 165632 “Anchor Wedge Clamp”, H02G 7/08, filed April 21, 2016, published October 27, 2016.

[3] Utility Model Patent No. 13521 “Anchor Clamp”, H02G 1/04, filed October 25, 2010, published April 20, 2000.

[4] Utility Model Patent No. 150537 “Anchor Clamp”, H02G 7/08, pending 08.29.2014, published 02.20.2015.

[5] Description of the invention to patent No. 2383979 "Anchoring clamp for an optical cable of the type of eight", H02G 7/08, claimed 10.02.2009, published 10.03.2010.

[6] Description of the invention to patent No. 2389115 "Anchor bracket (Options), H02G 7/02, F16L 3/10, filed March 18, 2009, published May 10, 2010.

[7] Description of the invention to patent No. 2391758 "Anchor bracket", H02G 7/02, F16L 3/10, filed April 15, 2009, published June 10, 2010.

Claims (4)

1. An anchor clamp comprising a housing, two wedges inserted in an open cutout of the housing and configured to longitudinally move in the housing for clamping between its inner surfaces of the wire and jamming it, as well as a flexible cable with an arc thimble attached to it, the ends of the flexible cable are fixed longitudinal recesses with transverse ribbing are made on the side walls of the case, on the inner surface of the wedges, guide recesses are made on the outer surface of the wedges, intended for the directional movement of the wedges along the internal notch along the pin protrusions in the case, while the guide recesses at the narrow end of the wedges are provided with sections with a transition to a shallower depth to limit the movement of the wedges, characterized in that at the wide end of one of the wedges on its outer side there are made at least two pins facing the other wedge, and at least one guide element in the form tide, limiting and directing the movement of the pins. 2. The clamp according to claim 1, characterized in that the guide element is made in the form of a T-shaped tide. 3. The clamp according to claim 1, characterized in that the longitudinal recesses are made sectorial less than a half cylinder. 4. The clamp according to claim 1, characterized in that the longitudinal grooves are made in the form of an ellipse or faceted.

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