DE1263185B - Switching device for direct current magnets - Google Patents

Description

Switching device for direct current magnets Addition to registration: S 71139 VIII c / 21 g-Auslegeschrift 1257 281 The invention relates to a switching device on direct current magnets with a main contact and an auxiliary contact activated by its field actuating auxiliary armature to control the magnetic excitation circuit in such a way that a series resistance in the magnet exciter circuit when the main armature has dropped out Short-circuited shortly after the main anchor movement begins and with the main anchor tightened is switched on again, according to patent application S 71139 VIII c / 21 g.

It is known that pull magnets due to their pulling force characteristics are difficult to dimension so that their initial tensile force at undervoltage is smaller than the resistance to movement opposing this tensile force. In order to there is a risk that the pull magnets attract in the event of undervoltage, but that their Power is not enough, the z. B. necessary excess force for the contact pressure to raise. It is also known to use a so-called economy circuit for direct current pull magnets should be used, which reduce excitation losses when switched on.

A switching device according to the main patent application achieves that on the one hand the pull magnet is only attracted when there is sufficient tension and on the other hand the losses in continuous operation are kept small.

The present invention is based on the object of a structure to specify for such a switching device, which can be carried out by simple means, d. H. especially with elements that have the other basic design of such Magnets not significantly affected. The switching device according to the invention is characterized in that the contact arrangement which switches the series resistor off consists of two spring-loaded contact parts, one of which (first contact part) with one arranged in the area of influence of the magnetic yoke of the magnet Auxiliary anchor connected and the second contact part of the main anchor is adjustable, such that the actuation of the contact arrangement is via both the auxiliary armature the first contact part as well as through the main anchor via the second contact part he follows. It is particularly advantageous to use the magnetic circuit, in particular the return path, with a part of high reluctance, e.g. B. a larger hole or To provide a constriction and to equip one of the contact springs with an auxiliary anchor, which is in the vicinity of the high magnetic resistance of the magnetic circuit.

An exemplary embodiment of the invention is described with reference to the drawing. The electromagnet 1 consists of an excitation winding shown schematically 2, a magnetic core 3, a plunger 4 and a return path part 5, the one has strong constriction 6. With the armature 4 is in the usual way via a lever linkage 7, the drive 8 for the contacts 9 and 10 of a switching device is connected. The lever 7 is rotatably mounted at point 11. At the conclusion 5, i. H. on the magnet body the contact springs 12 and 13 are fastened using the insulating part 14. Further a limit stop 15 is rigidly supported with respect to the back yoke part 5. A Auxiliary anchor 16 is attached to contact spring 12. The contact spring 13 has a bent extension 17 which comes into engagement with a roller 18 on the lever 7. The electrical lines and the on switch 19 and the economy resistor 20 are shown schematically.

If the on / off switch 19 is closed, the contacts 21 are on the leaf springs 12 and 13 are open, a relatively small excitation current flow. Armature 4 only pulls when there is sufficient operating voltage and gives the leaf spring 13 via the roller 18 to close the contacts 21 free. Now the resistor 20 is bridged and thus the full voltage for the tightening of the anchor 4 is present. Has the anchor 4 fully tightened and are the Contacts 9, 10 closed, a high stray field occurs in the area of the constriction 6 on, which pulls the armature 16 against the constriction. It is true that the spring 13 is capable of this Tightening movement to follow a little more, through the limit stop 15 but finally the spring 13 is retained and thus the Contact 21 open. By opening the contact 21, the resistor 20 is again switched on in the excitation circuit and thus causes normal economy mode.

Claims (4)

Claims: 1. Switching device on DC solenoids with a main armature actuated by its field and an auxiliary armature actuating auxiliary contacts to control the magnetic excitation circuit in such a way that one when the main armature has fallen Series resistor in the magnet exciter circuit shortly after the main armature begins to move short-circuited and switched on again with the main armature tightened, according to patent application S71139VIIIc / 21g, characterized in that the contact arrangement switching the series resistor consists of two spring-loaded contact parts, one of which (first contact part) with one arranged in the area of influence of the magnetic yoke of the magnet Auxiliary anchor connected and the second contact part of the main anchor is adjustable, such that the actuation of the contact arrangement is via both the auxiliary armature the first contact part as well as through the main anchor via the second contact part he follows. 2. Switching device according to claim 1, characterized in that the auxiliary armature of the one contact part in the vicinity of the high magnetic resistance of the magnetic circuit is arranged. 3. Switching device according to claim 2, characterized in that. that the magnetic yoke in the area of the auxiliary armature has a constriction. 4th Switching device according to Claim 1, characterized in that one of the main armature actuated drive lever on a roller or the like on a bent extension of the one contact part acts. "