DE1170565B - Device for heating metallic workpieces, in particular pipes, in the alternating magnetic field of an inductor - Google Patents

Description

Device for heating metallic workpieces, in particular Tubes, in the alternating magnetic field of an inductor The invention relates to a Device for heating metallic workpieces, in particular pipes, in the magnetic Alternating field of at least two coil parts encompassing the workpiece like pliers existing inductor, its separable and in the same plane relative to each other Movable parts in the working position with each other through electrically conductive contact pieces are connected.

Flat inductors are known for heating plate-shaped workpieces, in which the inductor coil consists of several turns, usually arranged in one plane, which are fed by generators for low-frequency, medium-frequency and high-frequency vibrations. For annealing rotationally symmetrical bodies such as B. rods or tubes, however, flat inductors are less suitable; for this purpose, cylinder induction coils, that is to say coils with several turns lying in different planes, are generally used, which are pushed over from the accessible end face of the workpieces (pipes or rods). However, if z. B. because of the length of the tube body to be glowed, because of these attached flange parts. These are cylindrical coil with a plurality of or even a single turn in which the cylinder jacket forming Windungsteilstücke - of the pipe to be treated in the interior of the coil for the purpose of loading - removed or can be folded back. However, because of the contact parts that are difficult to keep clean, such inductors are usually not very reliable, namely in rough operation the hinged and snap contacts of these inductors quickly become unusable due to dust, dirt and scale as well as soldering flux vapors.

Furthermore, a two-part inductor connector has become known in which one part or one half arranged displaceably in an outer slide is. In the working position, the electrical connection is made via the stop points made right next to the inductor opening. This type of contact is, however during operation due to the unavoidable deposition of scale particles, Fluxes, etc. always more prone to failure.

The invention is based on the object of using such inductors to facilitate with separable winding parts and the glow of z. B. long, butt-welded workpieces or workpieces that are difficult or impossible to access at the front to allow, without the winding parts that are in the electrical operating position Must be connected to one another in a way that conducts electricity through undesired foreign body particles (Scale) are impaired in their good contact. To solve this problem it is assumed that the inductors described above are known per se, z. B. those that consist of a single turn and their separable winding parts z. B. for the purpose of inductive radiator soldering in the same plane relative to each other are movable. According to the invention, the inductor parts are mechanically less stressed Stop points to ensure that the workpiece is always uniform Coupling distance as well as with large sliding contact elements and holes and or with channels remaining free due to the shape of the inductor parts Removal of foreign bodies in the contact paths.

Some embodiments of the device according to the invention will be presented explained in more detail below with reference to four figures.

In each of the figures, a flat inductor with a single turn is shown, which is provided with a circular cutout 1 for soldering radiators. The two-part inductor, which consists of a divided, relatively thick copper block, is provided with a continuous slot 2 and two further incisions 3 and 4 which are not continuous. The incisions ensure a suitable current distribution in the inductor and thus a predetermined heat distribution in the workpiece, not shown, which can be introduced into the cutout 1 . The current, a low, medium or high frequency alternating current, is fed to the inductor via lines 5 and 6. The inductor block consists of two separable parts 7 and 8. The separating line runs in the plane of the incisions 3 and 4. To achieve good current-conducting connections between the blocks 7 and 8 of the inductor is shown in FIG. 1 and 3 illustrated working position of the block 8 at the joints with the block 7 according to FIGS. 1 and 2 provided with connectors 9 , only one of which is shown. This plug 9 engages in a socket 10 of the block 7 . The socket 10 opens into a bore 11 running transversely through the block 7 , through which dirt particles in the socket 10 are pushed out when the plug 9 is inserted. The plug and socket arrangement is shown in FIG. 2 again clearly shown in a representation in which the inductor blocks 7 and 8 are disengaged. The reference numbers correspond to those of FIG. 1 elected.

3 and 4, blade contact arrangements for producing a good current-conducting connection between the inductor blocks 7 and 8 are illustrated. The knives 12 are attached to the abutting edges of the block 8 to the block 7 and, in the working position of the inductor ( FIG. 3) , engage in the sheaths 13 of the block 7 . Here, too, the contact parts self-cleaning when the knife is inserted into the sheaths.

It is usually sufficient to provide the contact arrangements described so far only once on each side of the blocks, preferably in the vicinity of the incisions 3 and 4. However, several plugs and sockets or knives and sheaths can also be provided on each side.

Claims (2)

Claims: 1. Device for heating metallic workpieces, in particular pipes, in the alternating magnetic field of an inductor consisting of at least two coil parts encompassing the workpiece like pliers, the parts of which are separable and movable in the same plane relative to one another are connected to one another in the working position by current-conducting contact pieces, d a - characterized in that the inductor parts with mechanically less stressed stop points to ensure a constant coupling distance compared to the workpiece and with large sliding contact elements (9, 10; 12, 13) and bores (11) and / or with the shape of the inductor parts channels (3, 4, 13) that remain free are provided for the removal of foreign bodies located in the contact paths. 2. Device according to claim 1, characterized in that the large-area sliding contact elements consist of plugs and sockets interlocking in the closed position of the inductor and the sockets open at their rear end into a transverse bore penetrating the inductor part. 3. Device according to claim 1, characterized in that the large-area sliding contact elements consist of knife sheaths or contact knives embedded in the inductor parts, the cutting edges of which are beveled to remove any foreign bodies at the outer edge of the inductor transversely to the movement direction of the same. Documents considered: German Auslegeschrift No. 1015 157; German patent application W 4054 VIII d / 21 h (published September 11 , 1952); Swiss Patent No. 301883; Book by C Urtis, "High Frequency Induction Heating", 1950, p 89 and 91st to 94th