DE505122C - Resonance relay with a loop-shaped spring that is excited to vibrate by an electromagnet - Google Patents

Description

There are resonance relays with one-sided clamped, electromagnetically closed. Vibrations excited, stretched springs in terms of the amount in the clamping point and lost energy migrating to the neighboring parts of the relay has been improved that the relay spring has received loop-shaped shape, so you approximately given the shape of a tuning fork and they only connect with one near the bend point lying part was connected to the supporting structure of the relay. There is a rigid connection between the spring and the frame not necessary, as the attachment point, which is expediently attached to a vibration node is laid, is mechanically relieved by the oscillating counterweight.

According to the invention in a resonance relay with a loop-shaped, of an electromagnet vibrations excited spring with the vertex of the spring on a transverse to the loop plane one or both ends of the flexible support strips attached to the support frame of the relay appropriate. This strip is advantageously punched out of one piece with the spring.

Embodiments of the invention are shown in

shown in the drawing, for example.

In Fig. 1 is the spring 1 consisting of a horseshoe-shaped permanent magnet at the apex of their bend by means of the tabs 2, 3 on the base plate 4 of the Relay screwed on. The two legs are in the air gaps of the E-shaped electromagnet 5 attached, which is connected to the plate 4 by the columns 6, 7. 8 to 11 are the excitation windings of the magnet; however, part of the windings can also be e.g. 10, 11, can be omitted. Because the two legs of the spring have different polarity have the λόιπ electromagnets 5 in the force flows generated by the air gaps are rectified, the two become Spring legs excited to oscillate in opposite directions.

The relay combines the advantage that so well as no energy migrates from the spring into the support frame, with the further that the spring itself produced, tuned and attached to the frame in the simplest possible way can be. If you want to produce a series of equally matched springs, so it is only necessary to punch strips of the same length from a sheet of the same thickness and bend them in a loop. Small deviations in the loop shape are irrelevant for the coordination, which is also essentially independent of the type of clamping.

To bring about a switching movement

*) The patent seeker indicated the following as the inventors:

Paul Paschen and Wilhelm Gebhardt in Nuremberg.

Jf *

can in a known manner by a hammer, button or the like. In the attack area the spring protrudes, energy can be drawn off.

In order to achieve a strong polarization of the spring it can be more advantageous under certain circumstances be to make one or both of the pillars 6, 7 of permanent magnets. In this In this case, the plate 4 and the fastening parts of the spring 1 are made of iron. In this embodiment of the relay, the two spring legs have the same polarity. In order to achieve opposite oscillation of the legs, the flows of the must therefore Electromagnets in the two air gaps are directed in opposite directions, for example the middle leg must be south pole, the two outer ones must be north poles. To this The purpose is to reverse the direction of winding, for example, of the coil 8, or to polarize how Fig 2 shows this coil around.

If the relay is to operate a switch with a reciprocating motion, then used one expediently two springs tuned to different frequencies, one of which the switch, for example, in the Closed position that brings the other to the open position. Such a relay shows the Fig. 3. Here are the legs of the spring through the slots 12 in two prongs 13, 14 each divided into different lengths. In this way you get two differently tuned loop-shaped springs that are connected to one another at the point of bend. The exciter magnet 15 with the windings 16, 17 has a horseshoe shape here. One leg is in the air gap of the Magnets, the other outside the air gap. It is essentially driven only the leg located in the air gap, the other leg then oscillates, as experience shows automatically counteracts with. He experiences only a slight drive from the stray field of the electromagnet.

The differently coordinated springs of the relay can also be used according to the one shown in Fig. 4 Way to be accommodated. Here each spring, for example spring 18, its own support strip 19, which with the spring after the cut (Fig. 5) from a single piece of sheet metal is punched out. The support strips of the springs are on top of each other arranged so that the support strip of the shorter spring, for example 20, through the loop of the longer spring 18 protrudes and the loop planes of the individual springs are offset from one another.

Claims (4)

Patent claims: 1. Resonance relay with loop-shaped, A spring excited to vibrate by an electromagnet, characterized in that the apex of the Spring on a transverse to the loop plane, attached with one or both ends to the support frame of the relay resilient support strip is attached. 2. resonance relay according to claim 1, characterized in that the spring with the support strip consists of a single punched piece. 3. With two or more different tuned, loop-shaped curved Resonance relay provided with springs according to Claim 2, characterized in that all springs are made of one piece together with the support strip and are connected at the bending point (Fig. 3). * 4. With two or more differently tuned, loop-shaped curved ones Resonant relay provided with springs, each of which has its own support strip according to claim 3, characterized in that the support strips are one above the other are arranged in such a way that the support strip of each shorter spring, each with its plane against the plane of the longer spring protrudes through the loop of the longer spring (Fig. 4). 1 sheet of drawings