DE965730C - Induction winding for dies or press pickups - Google Patents

Description

ISSUED JUNE 19, 1957

Sch ιοί52 VIII d / 2ih

has been named as the inventor

It is known to inductively heat press sensors and dies. to For this purpose, the transducers or presses are provided with longitudinal bores through which they are provided with insulation jackets provided conductors are laid. Each of these conductors is alternating at its exit points connected to the adjacent conductor, so that a correspondingly powerful induction coil arises. The alternating connection of these rod-shaped heating conductors to the two The end faces of the transducers or dies often cause difficulties.

The aim of the invention is to create a new type of induction heating which has the disadvantages mentioned avoids, and consists in the fact that the od in the holes of the die by steatite. Tubes or rings of insulated induction conductors made of metal strip or a sheet metal strip package and the bores or steatite bodies in the transducer are designed in such a way that the conductor flutes each side of the die successive steatite body edges are parallel to each other, the The conductor is twisted inside the hole. By, using such handy endless conductor eliminates the need to make connections at the end faces of dies or transducers. This eliminates the power interruptions that have often occurred up to now Avoided by loosening the connections due to vibrations. The heating

709 551/40

Head do not need to be insulated according to the invention, as in the previous embodiments, de Steatite tubes or rings pushed into the bores or onto the end faces of the transducers or dies and cover all relevant metal parts. This will make the manufacture simplified, and there are losses due to insulation breaks when bending insulated wires avoided. When the insulation bodies are pressed firmly into the ίο mounting holes, the Conductor and insulation body immobile in the transducer. There can therefore be no vibration breaks or insulation breaks as before, which are caused by the loose position of the conductors or the insulation. Since the holes in the transducer are usually arranged in a circle, the conductor has to move a little from hole to hole its axis can be rotated. This is advantageously done within the bore, ao The square edges of the two ends are then to be offset against each other so far that there are always two adjacent square edges, which take up the wires connected to the conductor groove, lie parallel to each other. The rotation of the induction head takes place in the middle part of the hole. The bores of the transducer are expediently cylindrical, as are the inset bores Isolation tubes made in several parts and designed in such a way that the two close to the end faces lying pipe pieces inside square, outside round and the pipe pieces lying between these inside and outside are round, the inside diameter of the latter being the diagonal of the inside square corresponds to the outer pipe sections. In a modification of this design type, the insulation also be designed so that the near the end faces of the pipe pieces in place of a round have a square outer cross-section. In this case it is particularly advantageous if the ends of the holes in the transducer are square with a cross-section, which corresponds to the outer cross-section of the insulation tube, with each square The hole is offset according to the connection of the conductor.

The drawing explains the invention, namely shows

Fig. Ι a longitudinal section through a transducer according to the invention according to section I-I of FIG. 2, Fig. 2 is a view according to view H-II of Fig. Ι after removal of the ring 4,

3 shows a partial section according to HI-III of FIG. 1 on a larger scale,

"4 shows a partial section in a somewhat different embodiment.

Bores 2 are made in the transducer 1 in an annular arrangement. The bores open into an annular recess 3 at the end faces of the transducer. On the bottom of each annular recess 3 is an insulation ring 4. Insulation tubes S are inserted into the bore itself at the ends, which are round on the outside and square on the inside. In the middle part of the bore there are two pieces of insulation pipe 6, which are round on the inside and outside. The pipe sections 5 are expediently secured against rotation in a manner not shown. A non-insulated electrical conductor, the cross section 7 of which can be seen from FIG. 3, is now drawn through the tubes 5 and 6. It consists of a laminated core and is guided back and forth through the bores 2. The two square tubes 5 at the two ends of a bore are offset from one another. However, two adjacent square tubes ζ _α and 5 _& (see. Fig. 2) are parallel to each other. As a result, the conductor consisting of a laminated core, which _{emerges from the square tube 5 α} , for example, can be inserted into the square tube 5 _{6 without any deformation.} On the adjoining inner part of the tubes 6, the conductor is then rotated somewhat about its central longitudinal axis. At the other end the arrangement is made in the same way, so that the square tube, which corresponds to the tube $ _b at the other end, is parallel to the square tube, which corresponds to _{the tube S c at the other end;} the transition from hole 2 _a to hole 2 _& can now take place at the other end without difficulty.

Fig. 4 shows a particularly modified embodiment of the insulating tubes. The square tube 5rf is not only square on the inside but also on the outside. The subsequent cylindrical tubes 6 _a have an inner diameter which corresponds to the diagonal of the inner square of the square tube ζ _α. The holes in the transducer are accordingly square at the corners and round in the middle.

Claims (4)

PATENT CLAIMS: I. Induction winding for dies or press receptacles with conductors of square Cross-section in bores arranged in a spatially meandering manner, characterized in that that the in the holes of the die through. Steatite or similar pipes or Rings insulated induction conductor made of metal strip or a sheet metal strip packet and the Bores or steatite body in the transducer are designed so that the Leiterkehien each Side of the die successive steatite body edges are parallel to each other, wherein the twisting of the conductor takes place inside the bores. 2. Induction winding according to claim 1, characterized in that the bores of the The transducer is cylindrical, and the insulated insulation tubes are made in several parts are designed so that the two near 'the end faces lying pipe pieces inside square, round on the outside and the pipe sections lying between these round on the inside and outside are, the inner diameter of the latter being the diagonals of the inner square of the outer Pipe pieces corresponds. 3. induction winding according to claim 2, da-. characterized in that the near the forehead flat pipe pieces instead of a round one a square outer cross-section own. 4. induction winding according to claim 3, characterized in that the bores of the Die are designed square at their ends, the square cross-section of the corresponds to the outer cross-section of the insulation body and according to the connection of the Conductors are staggered at opposite ends of each hole. Considered publications:
German patent specifications No. 679752, 664929. For this purpose ι sheet of drawings 15 609 738/304 12.56 (709 551/40 6.57)