RU2717235C1 - Method of fixing a flexible external terminal in connection with a winding lead wound on a magnetic conductor of an electrical machine - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: method of fixing a flexible external terminal in connection with a lead of a winding wound on a magnetic conductor of an electrical machine, in which a first hole is made in a panel made from electrically insulating material. Current-conducting element in the form of a pin is installed and fixed in it. Near the first hole and in a row with it in the panel the second and the third holes are made. Between these holes, the panel material is sampled from the side opposite to the end of the pin protruding from the panel. Depth of sampling is equal to diameter of flexible external lead with insulation. Stripped off insulation and tinkered end of the flexible outer lead are successively passed through the third hole, sampling and the second hole of the panel are squeezed around the pin. Panel is attached to the magnetic conductor of the electrical machine. Stripped and tinkered end of output of winding wound on magnetic conductor and crimped end of flexible external terminal are soldered to current-conducting element. Number of fixtures of flexible external output in panel is equal to number of connections with outputs of windings wound on magnetic conductor of electric machine.

EFFECT: technical result consists in improvement of reliability without damage to soldering station.

1 cl, 2 dwg

Description

The invention relates to electrical engineering and can be used in the installation of windings of electrical machines, rotating transformers.

A known method of fastening a flexible external output and connection with the output of the winding in the frontal part of the winding of an electric machine. This technical solution is protected by patents JP4157930 B2, 10/01/2008, EP0400241 A1, 12/05/1990, US 9013178 B2, 04/21/2015, EP1667313 A4, 06/15/2011.

The disadvantage of this method is that such a fastening of the leads leads to an increase in the volume and size of the frontal parts of the windings at the junction, while this does not provide resistance to tensile forces at the junction of the winding wire and the external output of the electric machine.

A known method of fastening a flexible external output by compressing it in a conductive element with which the output of the winding wire is connected. This technical solution is protected by patents US 5920135 A, 07/06/1993, US7830051 B2, 11/09/2010, EP1404007 A1, 03/31/2004.

The disadvantage of this method is the difficulty of attaching the compression element in an electric machine.

Closest to the claimed is the method described in patent US7714470 B2, 05/11/2010 (prototype).

A mounting method in which a flexible external terminal is soldered to a conductive element to which a terminal of a winding of an electric machine is soldered. Next, the flexible external output from the soldering point passes through a groove made in the panel in which the conductive element is fixed; when exiting the groove, the flexible external output bends approximately at an angle of 90 ° and passes through the hole made in the element integrated into the body of the electric machine . Thus, according to the authors, a reliable fastening of the flexible external terminal in connection with the terminal of the winding of the electric machine is created.

The disadvantage of the prototype method is the need to use two structural elements of the electric machine for attaching a flexible external terminal, which complicates the design, and the absolute immobility of the flexible external terminal at the soldering point to the conductive element is not ensured, which reduces the reliability of fastening the flexible external terminal and resistance to external tensile strength.

The technical problem to which the present invention is directed is a method in which the connection of the flexible external output and the output of the winding is fixed, the fastening strength of the flexible external output, resistance to external tensile force without damaging the joint soldering point.

The problem is solved due to the fact that by the method of fastening a flexible external terminal in connection with a terminal of a winding wound on a magnetic circuit of an electric machine, in which a panel made of an insulating material is made into a first hole in which a conductive element is mounted and fixed in the form of a pin , next to the first hole and in a row with it in the panel, the second and third holes are made, between these holes the panel material is sampled from the side opposite to the end of the panel protruding from the panel In this case, the sampling depth is equal to the diameter of the flexible external terminal with insulation, then stripped from insulation and the tinned end of the flexible external terminal is sequentially drawn through the third hole, the sample and the second hole of the panel, crimped around the pin, the panel is attached to the magnetic circuit of the electric machine, after whereby the stripped and tinned end of the output of the winding wound on the magnetic circuit and the compressed end of the flexible external output are soldered to the conductive element.

The number of fastenings of the flexible external terminal in the panel is equal to the number of connections with the terminals of the windings wound on the magnetic circuit of the electric machine.

In FIG. 1 shows the appearance of a panel for implementing the method. In FIG. 2 shows the process of performing the method. In FIG. 1 and FIG. 2, the following notation is introduced: 1 - panel, 2 - first hole, 3 - conductive element, 4 - winding terminal, 5 - second hole, 6 - third hole, 7 - selection, 8 - flexible external terminal, 9 - magnetic circuit of the electric machine.

In a panel 1 made of an insulating material, for example, DSV-2-L OST 17478-95, and which can be made in the form of a plate, sector, ring, the first hole 2 is made, installed and fixed in it, for example, with glue VK-9 OST 107.460007.009-02, conductive element 3 in the form of a pin. Next to the first hole in the panel, two more holes 5 and 6 are arranged in a row with the first hole 2. Between holes 5 and 6 in the panel, material 7 is sampled, the depth of sampling is equal to the diameter of the flexible external terminal 8 with insulation. The end of the flexible external terminal is cleaned, tin-coated, sequentially passed through the third hole 6, the sample 7 and the second hole 5 and squeezed around the conductive element 3. The flexible external terminal can be used, for example, grade MS 16-15 0.12 TU16.K76-011 -88. Panel 1 is glued or screwed to the magnetic circuit 9, after which the stripped and tinned end of terminal 4 of the winding wound on the magnetic circuit and the crimped end of flexible external terminal 8 are soldered to the conductive element 3. The number of fastenings of the flexible external extension 8 in panel 1 is equal to the number of connections to the terminals of the windings 4, wound on the magnetic circuit 9 of an electric machine.

The invention consists in the following. By making holes in the panel and selecting the panel material between them, passing the flexible external terminal through these holes, three bends of the flexible external terminal are created, which ensure the flexibility of the flexible external terminal at the junction with the terminal of the winding and the stability of the fastening of the flexible external terminal to external tensile forces . By choosing the thickness of the jumper between the holes in the panel, you can adjust the allowable force of the external tensile force without damaging the fastening of the flexible external output and without breaking it.

An example of a specific implementation. According to the claimed method, the mounting of the winding leads and the flexible external lead in the manufacture of a rotating transformer BVT-50R is carried out. Serial manufacture of the product has confirmed the high reliability of fastening flexible external terminals in connection with the terminals of the windings of an electric machine.

Claims (2)

1. The method of fastening a flexible external terminal in connection with a terminal of a winding wound on a magnetic circuit of an electric machine, wherein the terminal of a winding and the end of a flexible external terminal are soldered to a conductive element fixed in a panel of electrical insulation material, the panel is fixed to the magnetic circuit of an electric machine, characterized in that the first hole is made in the panel, in which a conductive element in the form of a pin is mounted and fixed, next to the first hole and in a row with it in the panel are made the second and third openings between these openings make sampling of the panel material from the side opposite to the end of the pin protruding from the panel, the sampling depth is equal to the diameter of the flexible external terminal with insulation, then the stripped end of the flexible external terminal is sequentially passed through the third hole, the sampling and the second the panel hole is crimped around the pin, the panel is attached to the magnetic circuit of the electric machine, after which the stripped and tinned end of the output of the winding wound on the magnetic circuit and zhaty end of the flexible outer terminal soldered to a conductive element. 2. The method according to claim 1, characterized in that the number of fastenings of the flexible external terminal in the panel is equal to the number of connections with the terminals of the windings wound on the magnetic circuit of the electric machine.

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