DE2020544A1 - Magnetic motor - Google Patents

Description

Magnet motor The magnet motor is a machine that creates the force fields converts permanent magnets or electromagnets into mechanical energy, in particular suitable for generators.

This is done as follows: A turntable on the in the shape of a circle Bar magnets are attached so that, for. B. the South Pole aur axis and the North Pole directly iat directed towards the circumference, is between two fixed disks on which the bar magnets otherwise, as with the turntable, are stored in such a way that they always have the same name Poles directly opposite. Because the magnets of the turntable point to the intended direction of travel and those of the fixed disk are insulated from the running direction, have the magnetic force fields in the running direction a reduced effect and thereby leave the turntable rotate.

A speed limit is achieved in that at high Speed of the movable magnets on the turntable, due to the centrifugal force, press towards your eyes so that the compression springs give way and the 3-pole close to the N-poles of the fixed disc arrive and prevent further acceleration. Ever the stronger the compression spring, the higher the speed.

A speed limit can also be achieved by means of a centrifugal governor the magnets of the fixed disc to the inside or

pushes outwards and thereby causes a polarity disparity, achieved will.

The magnetic motor is brought to a standstill by the magnets be moved on the fixed disks with a mechanism towards the axis, so that the unequal poles attract each other and cause a standstill.

Subscription 2 shows a magnetic motor and the magnets in cylinder shape are appropriate. The outer cylinder is bold, while the inner one by mutual Repelling the magnets is made to rotate. Braking takes place through the Moving the outer magnetic cylinder in the longitudinal direction, so that unrelated poles are meet and their attraction then cause the standstill. Speed limitation can done by centrifugal governor.

Magnetic motor.

Figure 3 shows a magnetic motor with 4 magnetic cylinders against each other rotate. By moving 2 opposing magnetic cylinders, the Braking achieved.

Figure 4 shows a magnetic motor with the help of insulating washers a reciprocating motion is generated, which is then rotated with a crank can be converted. The to-and-fro movement can be caused by attraction or withdrawal take place. This is done as follows: Magnet C is isolated from magnet A to the isolated one Magnet B is hit as soon as magnet C is in close proximity to magnet B. the insulating washer D is removed by a mechanism, so that the force fold of the magnet B becomes free and pushes magnet C to the now isolated magnet A, there the same process as just described. In the case of electromagnets, there are izolators replaced by switches that switch off the magnets or reverse the polarity. The current of the electromagnets is self-generated.

Figure 5 shows an application example for the motor as described in 4 as a reciprocating piston drive.

Claims (1)

P a t e n t a n s p r u c h 1.) The magnetic motor is not shown, that magnets on turntables or levers are attached to each other so that on Because of their particular isolation or Switching a continuous pushing off or tightening a rotation or causes a back and forth movement. L e r s e i t e