RU2716284C1 - Connecting pressed clamp (embodiments) - Google Patents

Abstract

FIELD: electricity.SUBSTANCE: invention relates to the field of electric power industry, namely to connecting pressed clamps (embodiments) intended for connection on overhead power transmission lines of the wire, structurally executed twisted from several steel-aluminium wires (conductors) with steel cores. Clamp consists of housing 5, made of aluminium or aluminium alloy tube, and steel bushing 6 in form of pipe. Steel-aluminium twisted conductors are pressed in housing 5, and steel cores 3, 4 of connected wires 1, 2 are pressed in bushing 6. Two inserts 7, 8 are introduced into housing 5 on both sides. In bushing 6 on one side there are two steel cores 3 of one connected wire 1, at that two steel cores 4 of the other connected wire 2 are located in bushing 6 on the other side towards each other an overlap.EFFECT: clamp according to the invention is a universal multivariant device differing by low cost, accessible and practical method of installation and high operational reliability in terms of providing acceptable mechanical strength of connection of linear wires.3 cl, 4 dwg

Description

The invention relates to the field of electric power, in particular to extruded clamping clamps designed to connect wires on an overhead power transmission line, structurally executed by twisted from several steel-aluminum wires (conductors) with steel cores.

A well-known extruded clamping clip containing an aluminum casing in the form of an aluminum pipe with cones at the ends, in which steel-aluminum wire is pressed in, and a steel sleeve in which steel cores are inserted into it, is pressed by the end-to-end method [1].

The disadvantage of these clamps is the high metal consumption and the large length of the sleeve and the aluminum body.

A pressable connecting clamp is also known for connecting non-insulated steel-aluminum wires and cables of overhead power transmission lines, the steel core of which is made in the form of a multi-wire core, consisting of a housing and a sleeve in which the multi-wire cores to be connected are mounted unintentionally. [2].

The design of such a clamp allows to reduce the length of the sleeve, metal consumption and the complexity of manufacturing, however, these clamps do not provide the connection of steel-aluminum wires with a single core. Ultimately, the disadvantage of the above designs of connecting clamps is that their use for twisted wires is possible only when the components of the twisted wire are connected separately, that is, leads to the use of connectors according to the number of twisted single wires, which increases the metal consumption of the connection, the complexity of manufacturing and installation.

The applicant set himself the practical task of developing an extruded connection clamp designed to connect wires on overhead power lines, which are structurally made from several steel-aluminum or aluminum or aluminum alloy wires (conductors) with or without steel cores mounted “butt” or "Off-guard", and allowing you to mount in the sleeve and housing wires with two or more components of a twisted wire, thereby abruptly zit of metal compounds, the complexity of the manufacture and installation.

This positive technical result was achieved due to the combination of essential features of the connecting extruded clamp presented in the following claims (options): “connecting extruded clamp for overhead power lines, consisting of a housing and a sleeve; it is designed to connect a wire structurally twisted from at least two steel-aluminum wires (conductors) with steel cores, while at least two liners are located in the housing, and at least two steel cores of one connected wire are located in the sleeve on one side and at least two steel cores of the other wire to be connected are located in the sleeve on the other side to overlap each other; pressable connecting clamp for overhead power lines, consisting of a housing; it is designed to connect a wire structurally twisted from at least two wires (conductors) made of aluminum or an aluminum alloy, with at least two inserts located in the housing; pressable connecting clamp for overhead power lines, consisting of a housing and a sleeve; it is designed to connect a wire structurally twisted from at least two steel-aluminum wires (conductors) with steel cores, with at least two inserts and at least one insert and at least one "two steel cores of one connectable wire are located in the sleeve on one side and at least two steel cores of the other connectable wire are located in the sleeve on the other side end to end”.

The invention is illustrated by drawings, where in FIG. 1 is a perspective view of a compression extrusion clamp made in accordance with the present invention, a front view perpendicular to an overhead power line wire; in FIG. 2 is a view along arrow AA in FIG. 1; in FIG. 3 is a view along arrow BB in FIG. 1; in FIG. 4 - section of the sleeve, front and side views.

The inventive connecting extruded clamp, designed to connect overhead power lines of a wire structurally made of twisted from several steel-aluminum wires (conductors) 1, 2 with steel cores 3, 4, consists of a housing 5 made of aluminum or made of aluminum alloy pipe, and steel sleeve 6 in the form of a pipe. Twisted steel-aluminum conductors are pressed into the housing 5, and steel cores 3, 4 of the connected wires 1, 2, are pressed into the sleeve 6 (Fig. 1).

According to the first independent claim, formulas are introduced into the housing 5 from two sides, for example, two liners 7, 8. In the sleeve 6 there are two steel cores 3 on one side, one connected wire 1, while two steel cores 4 of the other connected wire 2 are located in the sleeve 6 on the other hand towards each other overlapping (Fig. 3).

According to the second independent claim, in the housing 5 are also introduced, for example, two inserts 7, 8.

According to the third independent claim, two shells 7, 8, for example, are inserted into the housing 5 from two sides, for example, two steel cores 3, one connected wire 1, for example, two steel cores 4 on the other hand, two steel cores 4 of the other connected wire 2 are located in the sleeve 6 on the other side, facing each other end to end.

The invention works as follows:

The mounting of the clamping clamp is performed in the following sequence. Aluminum coils are removed from the connected steel-aluminum wires 1, 2, the housing 5 is pushed onto one end of the connected wires 1, after which two steel cores 3, 4 of one wire are inserted into the cavity of the sleeve 6, and two steel cores 3 are inserted on the other side of the sleeve 6. 4 of the other connected wire 2 and crimping is performed, starting from the middle in both directions. After crimping, the clamping housing 5 is pushed onto the crimped sleeve 6 so that the sleeve 6 is in the middle of the housing 5. Two aluminum inserts 7, 8 are inserted on each side of the housing 5 and the housing 5 is subsequently crimped from the risks towards the wire 1.2.

The proposed crimped connection clamp, designed specifically for the currently widespread so-called twisted (from several conductors) anti-vibration wires is a versatile multivariate device that is quite versatile in its functional purpose (applicable both for steel-aluminum wires with steel cores and for wires made of aluminum or aluminum alloy), characterized by low cost, low metal consumption (can significantly reduce l the length of the sleeve and, accordingly, the length of the aluminum casing) and the complexity of manufacturing, affordable and practical method of installation through the use of one connecting clamp instead of two and high operational reliability in terms of ensuring acceptable mechanical strength of the connection of linear wires. Until almost two thousandths of the twenty-first century in Europe and in the rest of the world, linear fittings for the so-called twisted wires (conductors) were not developed, the very concept of bundled wires was exceptional and only a theoretical rarity. Currently, this promising area is successfully introducing into the practice of electric grid construction precisely MZVA LLC, which is a pioneer in this field not only in the Russian Federation, but also abroad. The introduction of linear reinforcement for twisted wires (conductors) into the practice of electric grid construction will significantly increase the cross-section of phase wires and thus increase the throughput of overhead power lines.

Sources of information

[1] Description of the invention to patent No. 2353416 "Bolt-free connecting clamp", B60M 1/24, claimed 02.02.2007, published 10.10.2008.

[2] Industry catalog of mass-produced products 2016-2017 “Insulators. Linear fittings and installation tools for modern overhead lines ", section" Connecting fittings ", pp. 195-206.

[3] Description of the invention to patent No. 2365008 "Connecting die clamp", H02G 7/05, filed August 15, 2008, published August 20, 2009.

[4] Description of the invention to patent No. 2372698 "Connection clamp for steel ropes and steel wires", H02G 7/05, claimed October 14, 2008, published November 10, 2009.

[5] Description of the invention to copyright certificate No. 976820 “Connection clamp”, H01R 4/08, H01R 4/62, claimed 06/18/1979, published 11/15/1984.

[6] Description of the invention to patent No. 2272343, "Combination clamp type", H01R 4/10, H02G 1/14, claimed 03.08.2004, published 03.20.2006.

Claims (3)

1. Pressable connecting clamp for overhead power lines, consisting of a housing and a sleeve, characterized in that it is designed to connect a wire structurally made of twisted from at least two steel-aluminum wires (conductors) with steel cores, while in the case are located at least two inserts, and at least two steel cores of one connected wire are located in the sleeve on one side and at least two steel cores of the other connected wire aspolagayutsya in the sleeve with the other hand towards each other overlap. 2. Pressable connecting clamp for overhead power transmission lines, consisting of a housing, characterized in that it is designed to connect a wire structurally twisted from at least two wires (conductors) made of aluminum or an aluminum alloy, while in the housing at least two liners are located. 3. Pressable connecting clamp for overhead power lines, consisting of a housing and a sleeve, characterized in that it is designed to connect a wire structurally made of twisted from at least two steel-aluminum wires (conductors) with steel cores, while in the case are located at least two liners, and at least one liner and at least two steel cores of one connected wire are located in the sleeve on one side and at least two steel cores another wire to be connected are placed in the sleeve with the other hand to meet each other end to end.

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