DE264680C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- ■ Yes 264680-CLASS 21g. GROUP

PAUL MAY in CHARLOTTENBURG.

Magnets of various shapes and sizes are known to be magnetized in that they are brought as close as possible to coils or surrounded with wire windings that rectified electrical currents flow through them. It is not here possible to magnetize the magnets beyond a certain value. They say that Magnet is saturated. ■

ίο The present invention now provides a method which makes it possible to move magnets that have already been magnetized to the point of saturation in their magnetic To reinforce the effect without turning it into a magnetic generated by coils or the like Bring field. In the case of permanent magnets, that which occurs between the poles Field for driving or braking systems for measuring instruments, counters and Speedometer etc. used. Here is the one existing between the magnetic poles Force line density of the utmost importance. It is therefore always the most advantageous magnet for all purposes Effect result, the density of lines of force between the poles as high as possible Value reached. This density of force lines is produced by known methods Magnets can now be raised in the following way:

At any point, however, at a certain distance from the magnetic poles devices are arranged which, to a certain extent, have a demagnetic

³ Exert a S ting effect on the material of the magnet. For this purpose, devices have proven to be particularly suitable which act on the material of the magnet by heating, e.g. B. heated bodies, flames, nozzles from which highly heated gases flow out, heat and light rays of short wavelength, mechanical devices that can exert a thermal effect on the material through pressure *, impact or friction, as well as wire coils through which alternating currents flow Magnetic induction cause eddy currents in the material and heat it up. Furthermore, a field generated by alternating currents can also be used directly to act on the material of the magnet.

The distance between the magnet's points to be demagnetized and its poles is directed depending on the material and also on the shape of the magnet. When exercising the The magnetic poles and the immediately adjoining parts of the process are now Piece of material protected against heating, while the neutral zone and those in their Nearby material parts are heated. The degree of this warming is determined according to the quality and according to the shape of the material and is in terms of the cheapest Effect of the magnetic properties of the material and especially its permeability addicted.

The processes taking place in the material of the magnet when the method is carried out can be observed to a certain extent with an instrument, which to the one existing between the magnetic poles

Force line density responds. As such an instrument, a magnetometer, a appropriately designed magnetic needle or a bismuth spiral can be used, which by changing their resistance increases the density of lines of force between the magnetic pole can be recognized. To achieve the highest density of lines of force is the observation of a critical point is necessary, which in the exercise of the procedure arises in the increase in the number of lines of force. Up to a certain point, namely increases during the treatment of the Magnet by one of the mentioned devices the number of lines of force between the poles and finally reaches a maximum value beyond which an increase no longer takes place. If this value is reached, so it is beneficial to the demagnetizing effect of the device applied and let the magnet cool completely. Will the action on the material of the magnet after reaching the maximum value of the number of lines of force existing between the poles continued, so the number of lines of force sinks again, so that compliance with the reversal point at the exercise of the procedure is important.

All magnets treated by the method described above have an essential one higher force line density between their poles than magnets, which in the hitherto common Way only by means of wire spirals or electromagnets through which the electric current flows be magnetized.

Claims (7)

Patent Claims: i. Method of strengthening the magnetic Effect of permanent magnets, characterized in that on certain parts of the magnets, which of the magnetic poles at a certain distance, a demagnetizing one by suitable means Effect is exerted, causing a shift and thus an increase in the density of lines of force the magnetic poles is caused. 2. Embodiment of the method according to claim 1, characterized in that the demagnetizing effect at any point near the neutral zone or in the neutral zone Zone itself is exercised. 3. Embodiment of the method according to claim 1 and 2, characterized in that that the demagnetizing effect by heating the magnet to the said Points is produced. 4. Embodiment of the method according to claim 1 to 3, characterized in that that when certain points of the magnet are heated, the magnetic poles themselves and the parts of the Piece of material to be protected against heating. 5. Embodiment of the method according to claim 1 to 4, characterized in that that the degree of demagnetizing effect of certain points of the magnet depends on the quality and brought from the shape of the magnet. 6. Embodiment of the method according to claim 1 to 5, characterized in that that the degree and duration of the demagnetizing effect of the particular points of the magnet with an instrument is observed which the lines of force created between the magnetic poles indicating density. 7. Embodiment of the method according to claim 1 to 6, characterized in that that the demagnetizing effect of the certain points of the magnet only up to a certain maximum value of the Force line density takes place between the magnetic poles. S. embodiment of the method according to claim 1 to 7, characterized in that that when the maximum value of the force line density between the magnetic poles is reached the heating of the .specific points interrupted and a complete The magnet is cooled down.