RU2660172C1 - Compression midspan joint - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to the electric power industry, in particular to the compression midspan joints intended for connecting non-insulated steel-aluminum wires and cables of overhead transmission lines. Clamp consists of body (1) and bushing (2). Body is made of aluminum or aluminum alloy and is made in the form of a tube of round or oval shape with flats and conical part (3) at its ends. Steel cores (4) of the steel-aluminum wire (5) and at least two inserts (6) are lapped into the sleeve in a way overlapping each other. Inserts (6) are steel wires (not less than two) of the same diameter or several (more than two) wires, but of smaller diameter.

EFFECT: proposed compression midspan joint is characterized by low costs in manufacturing and in installation due to a significant reduction in its metal consumption and labor intensity due to a significant decrease in the lengths of the bushing and body when the fluffed wires of the cores of the steel-aluminum wires are joined together.

3 cl, 3 dwg

Description

The invention relates to the field of electric power, in particular to extruded clamping clamps intended for connecting uninsulated steel-aluminum wires and cables of overhead power transmission lines.

Known is a boltless extrudable clamping clip for wires, characterized in that it contains a housing in the upper part of which an open cavity is made for accommodating wires of unlimited length in it, an opening with a slot is made in the lower part of the housing for accommodating wires of limited length, with an edge the upper part of the cavity has a protrusion along the entire width of the clamp [1].

In this connecting clamp, in order to allow tight pressing of the pressed clamp with a wire of unlimited length, a protrusion is provided on the upper part of the clamp cavity, into which the matrix placed in the press power head abuts during the crimping process, which significantly complicates the clamp design and, accordingly, the crimping process itself.

The closest technical solution in relation to the proposed one is a pressable connecting clamp designed to connect uninsulated steel-aluminum wires and cables of overhead power lines, the steel core of which is made in the form of one round core or in the form of a multi-wire core, consisting of a housing and a sleeve [2].

Such clamps are designed to connect steel-aluminum wires with a cross-section of 185 mm ² and above. The connection of the steel part of the wires is carried out completely when the fluffy steel wires of the connected cores are inserted into the sleeve from opposite sides until they exit the sleeve, after which crimping is performed by matrices on hydraulic presses. However, it is impossible to connect the steel-aluminum wires in the steel wire in which the steel core is made in the form of a single wire, and, as a rule, in this case, the cores are joined by the end-to-end method, which has significant drawbacks, namely, the high metal consumption and the complexity of manufacturing and installation, due to the long steel sleeves, in turn leading to an increase in the length of the aluminum casing.

The applicant set himself the practical task of developing an extruded clamping clamp, the steel core of which is made in the form of a single round core or in the form of a multi-wire core, characterized by a small metal consumption and laboriousness in the manufacture and installation, reduced sleeve and case lengths when connecting fluffy wires of aluminum-steel core cores way off guard. This positive technical result was achieved due to the combination of essential features of the compression joint clamp presented in the following claims: “compression joint clamp designed to connect uninsulated steel-aluminum wires and cables of overhead power transmission lines, the steel core of which is made in the form of one round core or in the form of stranded core, consisting of a housing and a sleeve; at least two inserts are located in the sleeve, while the steel cores of the connected wires are located in the free cavity of the sleeve overlapping towards each other, and the diameter of the through hole of the sleeve is taken to be equal to d _opening = 2d _heart + (0.1 ÷ 5.0) mm, where d _heart. - core diameter, sleeve liner length L _incl. = (0.3 ÷ 2.0) L _W mm, where L _W - the length of the sleeve, determined from the ratio: L _W. = (8.0 ÷ 50.0) d _heart ; the body is made of aluminum or aluminum alloy and is made in the form of a pipe of round or oval shape with flats and a conical part at its ends; the sleeve, made in the form of a round pipe, is crimped at least twice in succession with the hexagonal and round dies. ”

The invention is illustrated by drawings, where in FIG. 1 is a perspective view of a compression extruder clamp made in accordance with the present invention, a front view perpendicular to the overhead power line wire; in FIG. 2 is a view along arrow AA in FIG. 1, an option with two liners in the sleeve; in FIG. 3 is the same as in FIG. 2, an option with the number of liners in the sleeve greater than two liners.

The inventive connecting extruded clamp, designed to connect uninsulated steel-aluminum wires and cables of overhead power lines, the steel core of which is made in the form of one round core or in the form of a multi-wire core, consists of a housing 1 and a sleeve (steel) 2. Housing 1 is made of aluminum or aluminum alloy and is made in the form of a pipe of round or oval shape with flats and conical part 3 at its ends. Steel cores 4 of steel-aluminum wire 5 and at least two inserts 6 are inserted into the sleeve 2 in an overlapping way towards each other. The inserts 6 are steel wires (at least two) of the same diameter or several (more than two) wires, but of a smaller diameter. The number of inserts 6 inserted into the sleeve 2 is determined by the condition of their free effortless entry into the free cavity of the sleeve 2. The sleeve 2 is crimped at least twice in succession with the hexagonal and round clamping dies, which is determined solely by the wire brand and connector design.

The diameter of the through hole of the sleeve 2 is taken equal to d _open. = 2d _heart + (0.1 ÷ 5.0) mm, where d _heart. - core diameter, sleeve liner length L _incl. = (0.3 ÷ 2.0) L _W mm, where L _W - the length of the sleeve, determined from the ratio: L _W. = (8.0 ÷ 50.0) d _heart .

The invention works as follows.

The mounting of the clamping clamp is performed in the following sequence. Before mounting on wire 5, bandages are fixed in the connection zone, aluminum wires of the connected parts of wire 5 are removed for a certain length, and sleeve 2 is pushed onto the steel core 4 of one of the connected parts of wire 5 until the end ends of the aluminum wires of the connected parts of wire 5. Core 4 of the second connected parts of the wire 5 is inserted into the hole of the sleeve 2, having previously screwed the housing 1 onto the wire 5. Then, the inserts 6 with the cleaned surfaces are inserted into the hole of the sleeve 2 until they stop at the ends of the aluminum wires connected astey wire 5. The sleeve 2 thus shifted so that the clearances between it and the ends of coils of aluminum wires connected parts 5 become same. After that, the clamp is crimped, starting from its middle. Aluminum powders at a certain length, as well as the internal cavity of the clamp housing 1, are cleaned of dirt and grease with rags soaked in gasoline. At the end of installation, the surface of the wire 5 is lubricated with grease or technical petroleum jelly and is brushed with a metal brush to a shine.

The proposed connecting extruded clamp, the steel core of which is made in the form of a single round core or in the form of a multi-wire core, is characterized by low manufacturing and installation costs due to a significant reduction in its metal consumption and labor intensity due to a significant reduction in the length of the sleeve and the housing when connecting fluffy core wires steel-aluminum wires in a way by the rip-off.

Information sources

[1] Description of the invention to patent No. 2353416 "Bolt-free connection 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, claimed 15.08.2008, published 20.08.2009.

[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 20.03.2006.

Claims (3)

1. Pressable connecting clamp designed to connect uninsulated steel-aluminum wires and cables of overhead power lines, the steel core of which is made in the form of one round core or in the form of a multi-wire core, consisting of a housing and a sleeve, characterized in that at least two insert wherein iron cores connected wires disposed in the free space of the sleeve towards each other overlap, the diameter of the through hole of the sleeve taken equal to d _{otv .vt.} = 2d _heart + (0.1 ÷ 5.0) mm, where d _heart. - core diameter, sleeve liner length L _incl. = (0.3 ÷ 2.0) L _W mm, where L _W - the length of the sleeve, determined from the ratio: L _W. = (8.0 ÷ 50.0) d _heart . 2. The clamp according to claim 1, characterized in that the housing is made of aluminum or an aluminum alloy and is made in the form of a pipe of round or oval shape with flats and a conical part at its ends. 3. The clamp according to claim 1, characterized in that the sleeve, made in the form of a round pipe, is crimped at least twice in succession with a hexagonal and round matrix.

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