DE1782324U - INDUCTOR FOR HEATING CURVED SURFACES, IN PARTICULAR THE INSIDE WALLS OF HOLES OD. DGL. - Google Patents

Description

Inductor for heating curved surfaces, especially the Inner walls of bores or the like.

The innovation concerns an inductor for heating curved surfaces, in particular the inner walls of bores in metallic workpieces, consisting of from an at least one coil through which cooling water flows and one of these surrounding protective body. For heating metallic objects, in particular Steel parts, on an electroinductive basis, it is known, single-turn or multi-turn inductors or coils to be used. To protect the coil and to avoid body shocks it has also been proposed that when hardening curved surfaces or the inner wall of the bores the coil in a protective body, which at the same time also can serve as a spacer to arrange. On the other hand, it is also known to be inductors to be provided with iron cores for better magnetic return. The coil turns are in these known arrangements often with a preferably coaxial arranged cooling channel provided.

The innovation has the task of improving heat dissipation Increasing the load capacity of the inductor when heating curved surfaces to enable.

This is achieved according to the innovation in that the cooling water channel at the end of the coil in a point of the interior of the protective body which is preferably lower than this opens and that means for discharging the cooling liquid are arranged above the coil are. It is thus achieved a more intensive cooling of the inductor, since this both is washed around inside and outside by the coolant.

The design of the inductor according to the innovation is particularly advantageous, if in the coil in a known manner an iron core to improve the magnetic return is provided.

This is then provided with one or more holes through which the rising coolant passes through, so that also of the iron core heat is dissipated well and safely. This makes the use of a magnetic allows favorable shape of the high-frequency iron core.

The inductor and high-frequency iron core are then constantly below Water. At the same time, the cooling of the massive coil return within the water depth accomplished from the outside. More details of the inductor after Innovations are explained in more detail with reference to the drawing.

In the figure, an inductor 1 is shown, which is in a protective body 2 is arranged. The inductor 1 consists of a coil through which coolant flows 3 and an iron core 4 to improve the magnetic return in magnetic particularly favorable shape.

The coil 3 is provided with power leads 5 and 6, which at the same time also feed the cooling water to the coil. Here is the inductor according to the innovation the return line 6 of the coil 3 to a lower point of the interior of the Protective body pulled down. The cooling water channel is interrupted at this low point and has an outlet opening 11 so that all of the coolant flowing through the coil enters the interior. From here the coolant comes out on the side walls, d. H. around the spool and through holes 7 to 9 in the one above The interior of the coil is located and is made of this via an opening 10 in the power supply 6 sucked off. In the illustrated embodiment, the power supply 6 is to the Coil end 13 soldered at point 14. In principle, of course, the end of the coil can also be used 13 at point 14 can only be bent and provided with an opening, during the Flow of the coolant to the power supply 6 by caulking the coolant channel is prevented.

To hold the coil in the protective body 2, for example a Quartz body, to be elastic, can be easily placed in the protective body 2 fixed, insulated wire 12, which is connected to one of the two power supply lines, in the illustrated embodiment with the return 6, on a blank Section 15 is soldered. The second power supply 5 can also be used under corresponding Attention to the insulation must be attached to this jumper wire. It goes without saying possible within the scope of the innovation, with the appropriate shaping of the protective body and Coil to use the inductor also to heat flat surfaces. 5 claims 1 figure

Claims (5)

Claims for protection 1. Inductor for heating curved surfaces, in particular the inner walls of bores in metallic workpieces, consisting of from a coil with at least one wind through which cooling water flows and one of these surrounding protective body, characterized in that the cooling water channel at the end of the coil ends in a preferably lower point of the interior of the protective body and Means for discharging the cooling liquid are provided above the coil. 2. Inductor according to claim 1 with an iron core, preferably in the form of twisted rolls to improve the magnetic yoke, characterized in that the Iron core is provided with holes for the coolant to pass through. 3. Inductor according to claim 1 or 2, characterized in that the Current return (6) starting from the lower end of the coil to a lower one than the end of the coil is pulled down and at this point at the same time Interruption of the coolant flow is provided with an outlet opening. 4. Inductor according to claim 1 to 3, characterized in that the the power supply lines (5, 6) containing the coolant channels at the upper end of the protective body (2) are elastically attached via an intermediate link. 5. inductor according to claim 4, characterized in that an insulated wire is provided as the intermediate link, which is soldered to one of the power supply lines on a bare section.