SU464082A1 - Inductor - Google Patents

Description

one

The invention relates to the heat treatment of metals, in particular, to an inductor for zonal electric heating of articles, for example, of a cylindrical shape.

Known inductor containing located sequentially around the circumference of the processed product coil. However, it cannot be used to heat large items that have massive tides near the treatment area. This is due to the fact that the well-known inductor does not provide a uniform temperature field in the heating zone, since it does not allow dosing of the heat generated in the product in certain parts of the treated zone. In addition, when generating in a large-capacity metal, which is necessary for high-temperature heating, the electrodynamic forces in the inductor coils reach large values, causing strong vibration and even destruction.

The described inductor is characterized in that in it each coil is aligned with the coils adjacent in the plane by an amount less than 1/3 of the length of the coil and a greater amount of double the width of the conductors. This ensures uniform heating of large-sized products with local thickenings.

The drawing shows the described inductor for heating products, for example, a cylindrical shape (vessels, hulls, shells, etc.).

It consists of at least two series-connected, spiral-wound coils I in the plane, having the same or different number of turns, shaped in the shape of product 2. The coils are mounted sequentially one after the other and aligned with each other along the plane of the turns.

The combination of coils is produced less than 1/3 of the length and larger than the sum of the double width of the conductors, i.e. that the oval formed by the overlapped parts is longer along the total width of their conductors.

To connect the coils to each other, each of them has leads (terminals) at the beginning and end of the straight part of the first turn, and pin 3 at the end of the last turn. Coils, for example, for cylindrical products are mounted in a chain and form a ring; at the junctions have shunt devices. The coils are connected in series with the network, and the total number of turns of the annular inductor is equal to the sum of the turns of the coils.

3

Coils I are interconnected in series and according to. Electricity is supplied to them from a single-phase power source. When such coils are turned on, the current in their branches x, located on one side, has a direction opposite to the direction of the current in the branches of the other side, and in the combined parts, the current forms local ring electromagnetic fields, matched with the main electromagnetic fields of the coil successive branches. In this case, all the coils may have either the same number of turns, or be performed with a different number of turns. According to the included coils, secondary currents are induced in the metal, which from the branches of one side of the coils are summed and circulate around the circumference of the product in the direction opposite to the secondary currents from the branches of the other side of the coils. In this case, the combined parts of the coils induce local secondary currents in the metal, closing in the form of vortices between the main secondary currents.

currents circulating in the metal around the circumference in a different direction.

Due to the fact that the coils can be made with a different number of turns, the inductor makes it possible to obtain different specific surface powers in separate areas of the treated surface. The intensity of the heat flux in the areas can be regulated by shunting some inductor coils with the help of shunting mechanisms.

Subject invention

An inductor containing coils arranged successively around the circumference of the product to be processed, characterized in that, in order to ensure uniform heating of large-sized products with local thickenings, each coil is aligned with the coils adjacent along the plane by less than 1/3 of the length of the coil more than the double width of the conductors The coils are electrically interconnected.