DE144803C - - Google Patents

Description

IMPERIAL Λ

PATENT OFFICE.

. In order to use electromagnetic circuit breakers and similar devices periodically reciprocating anchor to achieve a slow movement of the anchor, is after present invention the cancellation of the armature attracting magnetic force, instead of by Interruption of the current exciting the electromagnet, due to the development of heat of a circuit. For example, by the armature of the electromagnet in its attracted position, a second circuit is closed, which consists of one at Current passage consists of highly heated wire, which is arranged so that they the winding of the electromagnet is also very hot. The resulting increase in resistance the electromagnet winding has a reduction in the current strength and the attraction force, so that the Armature is released and the effect of the heating winding ceases. After enough entered When the electromagnet winding cools down, the force of the electromagnet becomes strong enough again to attract the armature, and the game starts all over again.

The time can be increased by grading the current intensity and the heating effect accordingly the reciprocating movement can be determined and the latter can be used to open and close other circuits are used. It can also be the one in the electromagnet winding itself developed heat can be used to loosen the anchor. This can then the circuit of a second electromagnet, which is also closed by its primary winding comes out of action and reacts to the first one. The heating coil, which beneficial is made from nickel silver wire, instead of using the electromagnet winding, on the armature or the electromagnet core let it take effect. In order to demagnetize them, however, their temperature must be can be increased almost to red heat. By using alloys with However, nickel can significantly lower the demagnetization temperature. In In practice, alloys of 25 percent nickel and 75 percent iron have proven to be beneficial proven.

The arrangement can also be made so that iron or alloy windings form the armature or core of the magnet and attract or attract when cold will. In doing so, however, they close a circuit that either goes through these windings themselves or through a special winding has a heating effect on them, so that they are heated sufficiently become non-magnetic, let go of the electromagnet and the heating current again interrupt. Of course, solenoids and cores can also be used instead of electromagnets be used, which are drawn into the cave of such.

In Fig. Ι of the drawing, α represents the magnetic core on which the coil s ^{1 is} attached, which magnetically excites it. On the same core sits another heating ^{coil s 2} , which is wound from a material that is heated by the current passing through it and thereby also heats the core α and the coil s ¹ . So pulls the first moment

If the core of the armature b is attached, it will let go of it after some time, because at the same time the coil s ² receives current, heats up and both the core and the winding s ^{1 are} heated. This not only under certain circumstances completely demagnetizes the core, but the coil s ^l also gains such a high line resistance that not enough current can pass through it.

ίο to excite the magnetism necessary to hold the armature in place. This causes the anchor to go back again. This then independently interrupts the heating current through contact c , so that the coil s ² and thus also the core cool down again and the game begins again.

Fig. 2 shows the arrangement of an armature which is formed from a conductor of demagnetizable material. This conductor is attracted as long as no current passes through it. However, as soon as the current takes its way through the conductor as a result of the interruption of the contact c , it heats up to a certain point at which it loses its magnetizability, and is therefore released from a . The current passing through is short-circuited as a result, the armature cools down so that it is attracted again after a certain time and the game starts again.

In Fig. 3, however, a massive anchor piece k is surrounded by a heating coil w . Here, the armature itself is attracted by α until it is heated by the heating coil and reaches the demagnelization point, whereupon it eludes the influence of the core a and causes its heating coil to be short-circuited by a contact device similar to that in FIG.

Claims (4)

Patent Claims: ι. Electromagnetic circuit breakers or similar electromagnetic devices with periodically reciprocating armature, characterized in that to achieve slow interruptions the retreat of the attracted armature, instead of interrupting the electromagnet exciting circuit on the part of the attracted armature, by weakening " the magnetic force is caused by the heat generated by the current. 2. Electromagnetic device according to claim 1, characterized in that A special heating winding is arranged on the core of the electromagnet, which is drawn from the attracted armature in a circuit is switched on and heating the solenoid increases its resistance and thus the magnetic Strength weakens. 3. Electromagnetic device according to claim 1, characterized in that the armature made of demagnetizable material is provided with a heating winding which is inserted in the removed Position of the armature is short-circuited, in the attracted position the current flows through it and through the developed Current heat demagnetizes the armature. 4. AusfUhrungsform of the device according to claim 3, characterized in that that the heating cable forms the winding of the armature at the same time. 1 sheet of drawings.