SU902921A1 - Inductor for magnetic-pulse treating of metals - Google Patents

Description

(5) INDUCTOR FOR MAGNETIC AND PULSED TREATMENT OF METALS

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The invention relates to the field of metal forming, namely, j to metal pressure devices of a pulsed magnetic field. Advantageously, the invention can be used in devices where a series of powerful pulses of current C pass through an inductor in a fraction of a second.

A known inductor for magnetic pulsed metal processing, containing a solenoidal conductor with a thickness greater than the current skin layer, and an axial hole for accommodating the workpiece 12.15

A disadvantage of the known device is the reduction of its durability. This is due to the fact that when a series of powerful current pulses passes through the inductor due to the high current density due to the skin layer thickness, the surface layer of the inductor conductor is very strongly heated (up to the melting temperature). This reduces the resistance of the inductor. In the groove between the pulses behind. the heat conduction current-skinnier can be cooled by the rest of the current conductor mass. However, such one-sided cooling is not effective enough.

The closest to the proposed device according to the technical solution is the well-known inductor for magnetic-pulse metal processing, which contains a single-turn conductor with a thickness greater than the current skin layer, and an axial hole for accommodating the workpiece Z.

The disadvantage of this known prototype device is its insufficient durability. This is due to the fact that when a series of high-power current pulses is passed through the inductor due to the considerable current density due to the thickness of the skin layer, the surface layer of the inductor's conductor is very hot and can

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reach melting point. As a result, durability is reduced. nduktora.

The aim of the invention is to increase the resistance of the inductor, s

The goal is achieved by the fact that in an inductor for magnetic-pulse metal processing, which contains a conductor with an axial hole to accommodate the workpiece, the conductor is made in the form of a tape wound in an Archimedes spiral with a thickness no more than the thickness of the current skin layer. heat removal from the conductor, the inductor is equipped with fixed at 15 fighting ends of the helix at each turn of its edges, diverging on the coos and increasing in cross section to the free ends, as well as current from two ends otovlennymi of ferromagnetic material reels with conical recesses for receiving edges with central openings coaxial opening in the conductor. $ 2

For magnetic-pulse processing of the workpiece above its surface in a given zone, a certain amount of current must be created. In the prototype device, such a current flows through one skin layer, therefore, the current density in the conductor is large and it is very hot. Thanks to the conductor in the form of a spiral. Archimedes with a thickness of not more than the thickness of the current skin layer, the same current flows through several skin layers (depending on the number of turns of the spiral / jn), i.e. the same current passes through a large section. As a result of 40. of this density, the current in the conductor decreases, respectively, and the heating of the conductor decreases. The current between the pulses is cooled from two sides at the expense of the ribs, 45 with which it is supplied. The glass of the current on the ribs prevents the ferromagnetic material in the grooves of which they are located.

The drawing shows an axial section of the proposed inductor JQ.

The inductor contains a conductor 1, made in the form of Archimedes cnHpaJW The thickness of the conductor t is equal to or less than the thickness of the current skin layer. The inductor has an axial hole 2 for accommodating the workpiece 3. On either side of the conductor 1 are ribs. They can be executed as

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wholly with the conductor 1, and attached, for example welded, to it. Each rib is located in the corresponding groove 5 of the ferromagnetic reels 6. The ribs 4 can be provided with a tube 7 for running coolant, for example, water.

The inductor works as follows.

A series of powerful current pulses is passed through the conductor 1. As a result of the current passing through several turns of the Archimedes helix, the current flow in the inductor decreases, This is due to the fact that the total cross section through which the current flows increases. By reducing the current density, the heat generated in the conductor 1 is reduced. In the output the inductor heats up significantly less. At the same time, from each turn of the tokop {water lead 1 in the workpiece 3 is induced with a current. The coupling coefficient of each turn of the conductor 1 with the workpiece 3 is not noticeably reduced, since the thickness of the conductor 1 is no more than the thickness of the current skin layer. The spreading of the pulsed current along the edges k is prevented by the fact that they are placed in the grooves 5 of the bobbins 6. Due to the large magnetic resistance provided by the ferromagnetic material of the bobbins 6, all the pulsed current flows through the conductor 1 of the inductor. In the pause between the current pulses, the heat released in the conductor t, the tap 1 "TC on both sides due to the thermal conductivity of the ribs 4. When performing a large number of operations between operations, the ribs can be cooled with water flowing through the tube 7.

The proposed inductor, in comparison with the known, has a greater durability due to the fact that the current density decreases. A decrease in the current density is provided by an increase in the cross section through which the current passes, by making the conductor in the form of an Archimedes spiral with a thickness of no more than the thickness of the current-layer. Increased durability is also provided by supplying the pipeline with ribs on both sides, each of which is located in the groove of the ferromagnetic material.

The expected economic effect from the implementation of the invention can be obtained due to the fact that with the help of the proposed inductor

Claims (2)

Claim 1. An inductor for magneto-pulsed metal processing, containing a current lead with an axial hole for placing a workpiece, characterized in that, in order to increase the resistance of the inductor, the current lead is made in the form of a tape wound into an Archimedes spiral no more than the thickness of the current skin layer. 2. Inductor by π. 1, characterized in that, in order to improve heat removal from the current lead, it is equipped with ribs fixed at both ends of the spiral on each coil, diverging on a cone and increasing in cross section to the free ends, as well as races ⁵ reels laid from two ends of the current lead made of ferromagnetic material with conical grooves to accommodate the ribs and with central holes coaxial with the ^0th hole in the current lead.