DE3604028A1 - Fine air-gap matching for induction energy converter (transducer) - Google Patents

Abstract

The profiled intermediate piece which on one side corresponds in terms of induction components to the energy converter and whose profile on the other side corresponds to the shape of the workpiece/tool or the material being processed, improves the utilisation of the energy transmission. The improved matching to the machine components and/or to the workpiece is achieved in that the air gap is filled with magnetically conductive materials corresponding to the construction of the induction energy converter, such that the favourable operating size of the air gap is achieved. Any potting compounds which conform with the operating mode can be used as binding means for the magnetically conductive materials.

Description

The invention relates to a novel embodiment of induction energy converters for workpiece adaptation ( Fig. 3-12). The design and function of the induction converters are well known. They are built in the form of flat energy converter units and in the form of so-called induction heating elements, which consist of an inductor with a separately constructed cylindrical shaft as an anchor. Reference is made to the special construction and the use of transformers.

For the purpose of the invention, the flat induction play energy converter a role. With these energy converters there is Inductor made of a relatively flat, usually cuboid Body that is usually closed on all sides. Such energy converter uses a simple, flat, flat plate as a mechanical component made of steel or other electrical magn. conductive materials.

With these induction units, which are built as special heating transformers ( Fig. 1; 2), the optimal energy transfer is only possible on structurally symmetrically identical components. A change in shape leads to a change in the energy transfer, which means a deterioration in the power factor and the efficiency.

The previous solution saw the construction of all types of energy converters adapted form. This technical solution came in very few Cases for execution.

The present invention now creates the possibility of normal Flat design induction energy converters for such applications use and significantly increase energy transmission.

This new technical concept is simpler, more application richer and associated with significant price advantages, both at the creation, as well as in the operation of such systems.

The secondary induction unit is a structurally predetermined one Shape that is determined by the machine system part. The induction energy converter is also in a structurally predetermined form structurally defined as "normal" version, known as TWIG (Traveling Wave Induction Generator).

The sketches show the embodiments ( Fig. 4; 10; 13).

The new adaptation according to the invention takes place in such a way that the air gap is fitted with longitudinally or transversely laminated components according to the TWIG-like design ( FIG. 3; 4; 10 to 13).

The "intermediate lamination" between the machine or workpiece components can also be made with magnetically conductive material such as powder or compact iron shavings that can be used simultaneously Reduce the air gap and increase the induction flow.

Claims (9)

1. The adaptation of the induction energy converter to radially shaped machine components is characterized in that the air gap through the filling with magnetically conductive material, laminated, powdered or magn. granular material is filled according to the structure of the energy converter up to the favorable working size of the air gap. ( Fig. 5 to 12) 2. According to the total size, the energy transfer is small Energy converter units divided into a closed overall unit. 3. Adaptation of the energy converter to an inner radius. ( Figs. 7 and 8) 4. Adaptation of the energy converter to an outer radius. ( Fig. 5; 6; 9; 10; 11; 12) 5. Adaptation of the energy converter in combination of external u. Inner radius. 6. Adaptation of the energy converter to the workpiece such as profiles, pipes, round material, etc. is characterized in that the air gap through the laminated components or magn. powdered or granular materials can be adapted according to the secondary element up to the favorable working size of the air gap. ( Figs. 3 and 4) 7. System structures for dormant or transfer operation. 8. core section structures ( Fig. 3; 4; 13) on induction energy converters are characterized in that the energy converter for adjusting magn. conductive structures according to Fig. 3 and 4 laminated, powdered or granular magn. Contains material, characterized in that the components are assembled as compact units, whereby all possible casting compounds can be used as the binding material, provided they meet the requirements of the operating mode. 9. The filling of the non-magnetically active space can be poured out with casting resin and additional filling material, the whole is connected to a compact unit.