DE4429386A1 - Eddy current heating using wind power - Google Patents

Abstract

Energy generated by a vertical-axis wind-driven wheel is transmitted by a shaft to a disc rotating in a heat-exchanging medium. Within the disc eddy currents are generated. There are permanent magnets stacked on either side of the disc or beside each other above the disc. No auxiliary energy sources are needed. The generated temperature in the medium lies above 100 degC and is thus suitable for a district heating supply. The control of the generated energy is by moving the magnets closer or further away from the disc. For this purpose, the magnets are mounted on shafts with a handle.

Description

The present invention relates to the generation of thermal and heating energy with the help of the electric eddy current.

In particular, the present invention relates to the type of drive wind energy. The generation of eddy current is negative according to the current level of technical utilization Aspect and is prevented as much as possible in the electrical devices and machines due to the heat energy generated. The application is e.g. Z. as a braking device Express trains and other large machines, destroying the heat energy generated featured.

The principle of action of the eddy current is used intentionally in the present case. Also experimental Tests confirm the high efficiency of the heat generated in this way even without the use of auxiliary energy.

The technical embodiment of the generation of the eddy current can not only by Discs, but also by other geometric shapes, e.g. B. rotation body.

Regardless of the shape of the wind wheel (in the case of wind rotors, for example, horizontal or vertical rotors as shown in FIG. 2, indicated as an H rotor with 2 blades, so designated: 1 - bearing and mechanical brake, 2 - blades, 3 - support tube or mast , 4 - drive shaft) one or more disks such as 1 - 6 Fig. 1 are driven from electrical conductor materials. This arrangement ( Fig. 1) and the variations shown in connection with Fig. 2 (wind energy) or other drive sources, such. B. braking devices, represents the essence of the invention.

The disks 1 ( FIG. 1) run in a magnetic field which is generated either by permanent magnets 2 ( FIG. 1) or by auxiliary energy with electromagnets.

To achieve this object, the use of permanent magnets 2 ( FIG. 1) is provided in the invention. The disks or other geometric shapes arranged on an axis 4 ( FIG. 2) run in a heat exchange medium 3 ( FIG. 1). The medium - Midel -, which is currently used to cool transformers, is preferred because of its environmental compatibility. The further treatment of the heated medium is carried out according to the known principles of heat exchange, with temperatures reaching over 100 ° C.

It is important whether the necessary heat exchangers 7 Fig. 1 are arranged in the same medium or separately. The housing, with the driven axis, the disks, the permanent magnets, the heat exchange medium and the heat exchanger, is well insulated. A multi-pane arrangement (or other geometric shapes) guarantees a possible grading of performance.

The amount of heat generated is regulated by swiveling the magnets in and out, with the north and south poles facing each other with the driven individual disk 2 in between ( FIG. 1). The control 4 ( FIG. 1) can be carried out by a purely mechanical manual control 4 ( FIG. 1) (spindle drive) or with motor power, depending on the required heat output.

The generator tank 6 ( Fig. 1) is also a heat storage device and also the housing for the heat exchanger 7 ( Fig. 1). The structure and shape of the housing is therefore designed to be application-specific.

An essential point when using eddy current heating with wind energy as well other types of drives, according to the current state of the art, is mutual cooperation with a block heater. This is a continuous heat supply (heating, Hot water) secured.

The actual goal of the invention is thus achieved.

Claims (12)

1. Generation of heat and heating energy with electrical eddy current by wind energy characterized in that the heat generated via a heat exchanger medium ( 3 , Fig. 1) (here -Midel-) is used. 2. The generation of the eddy current for heat and heating energy characterized in that geometric rotating bodies ( 1 , Fig. 1) (electrical conductor material, here as a disc) generate the eddy current. 3. The generation of the eddy current for heat and heating energy characterized in that the drive torque is a vertical wind turbine ( 2 , Fig. 1). 4. The generation of the eddy current for heating and heating energy, characterized in that that the drive torque is both kinetic or potential energy of masses or machines. 5. The generation of the eddy current for heating and heating energy with the generator tank, characterized in that it is also the heat storage tank ( 5 and 6 , Fig. 1). 6. The eddy current generation for heating and heating energy, characterized in that the required magnets ( 2 , Fig. 1, here as permanent magnets) are arranged side by side or one above the other. 7. The generation of the eddy current for heat and heating energy, characterized in that a direct drive from a wind turbine ( Fig. 2) (without gear) for eddy current generation ( Fig. 1). 8. The generation of the eddy current for heat and heating energy, characterized in that liquid or solid heat exchange media ( 3 ) ( Fig. 1) take over the dissipation of the heat of the eddy current. 9. Generation of the eddy current for heating and heating energy, characterized in that a staggering of the output of the eddy current generation by the arrangement of several parallel individual units ( 1 , Fig. 1) of the eddy current generation can be done in one housing. 10. Generation of the eddy current for heating and heating energy, characterized in that in the container of the generator ( 1 , Fig. 1) at the same time the heat exchanger ( 3 , Fig. 1) is arranged. 11. Generation of the eddy current for heating and heating energy, characterized in that the regulation of the power ( 4 , Fig. 1) here by hand crank for generating the eddy current by approaching and removing the magnets ( 2 , Fig. 1). In an arrangement of parallel individual components ( 1 , Fig. 1) it is of no importance whether the north and south poles ( 2 , Fig. 1) face each other or lie next to one another. 12, generation of the eddy current to heat and heating energy, characterized in that is produced according to any of claims 1-11, the eddy current in the FIG. 1 and FIG. 2 apparatus shown and their specific arrangement and used.