DE803358C - Audio frequency relay - Google Patents

Description

Audio frequency relays With the known audio frequency relays to achieve a dormant contact made special expenditures. For example threaded copper short-circuit rings in slots of the excitation iron, which laminated the Only partially enclose the iron core. The consequence of such an implementation in which the iron cross-section is weakened, there is an increased need for excitation travel and Excitation current and a correspondingly large winding space; so that the relay is oversized must become. Nevertheless, only contact pressures of about 2 g can be achieved, which cannot always ensure sufficient current passage. A reasonably sufficient one To obtain switching reliability, it is necessary that the audio frequency relay Auxiliary relay controlled by him is arranged, which carries out the actual switching functions takes over.

The invention is based on the knowledge that higher contact pressures can be achieved if a resting contact is dispensed with and instead a vibrating contact caused by the audio frequency is applied. According to the invention is the relay armature carrying an oscillating contact spring on a non-polarized iron circuit non-weakened cross-section resiliently attached and leads to an oscillating contact from the double tone frequency. The excitation current requirement and the required winding space and iron cross-section considerably less than before, while the periodic contact results in a higher contact pressure of about 7 to g g can be achieved. This works for the duration of the audio frequency relay a train of direct current pulses of twice the frequency of the control current on a relay of normal design, so that this becomes more audio-frequency during the run-in Signals holds. The invention therefore an auxiliary relay does not do either dispensable, but this is due to the much higher contact pressure compared to the previously known audio frequency relay controlled and held absolutely safe. The diminution the structural dimensions allow the laminated iron core and bobbin to use the induction coil commonly found in telephones to set up the relay, by interrupting the closed iron core on one narrow side and in the interruption point of the U-shaped iron core formed in this way, the relay armature is pivotably mounted. It can therefore easily be kept in stock for the production of telephone sets certain parts are also used in the manufacture of audio frequency relays.

Further details can be found in the diagrammatic representation of a Embodiment of the invention emerges. It shows Fig. I the general view of a Audio frequency relay according to the invention and Fig. 2, 3 and 4 each a detail of the Audio frequency relay.

With the insulating plate 2 carrying the solder lugs i, two are angled curved support 3 screwed to which the U-shaped laminated iron core 4 is attached is. The excitation coil 5 is slipped over its right leg. At the upper end and a strut 6 is attached to both sides of the two legs of the iron core 4, which run transversely to the iron legs and on which an angle piece 21 on the right is screwed on. A support plate 7 is screwed to the struts 6 on the left which the relay armature 8 is resiliently mounted by means of the leaf spring 12. This leaf spring is on the left side by a pair of strips screwed to the support plate 7 13 clamped. With the other end of the leaf spring are the relay armature 8, the Oscillating contact spring 9 and the return spring 15 with the interposition of the bar 14 and the pair of strips 22 arranged above this screwed. The Relay anchor 8 and the bar 14 lying next to it for clamping the right one Side of the leaf spring 12, while the oscillating contact spring through the upper pair of strips 22 9 and the return spring 15 are clamped. Fig. 2 shows the z. B. from sheet bronze constructed leaf spring 12, which by a parallel to his, through the hole pairs 24, 25 formed clamping points extending slot 26 in its cross section is weakened so far that the narrow webs present on both sides of the slot 27 form the bending points of the leaf spring. The one shown in Figure 3, with screw holes 18 provided oscillating contact spring 9, which consists for example of nickel silver sheet, is tapered towards the front and has a backwards formed by punching out curved tongue 16, which is supported against the front part of the armature 8, as well as the contact body 17 at its tip.

The power of the also shown in Fig. 4, with screw holes 23 provided T-shaped return spring 15, which is made for example from sheet bronze is, can by means of the adjusting screw i9 screwed to the support plate 7 as desired to be changed. To increase the standing effect, the one pointing to the screw 19 is Part of the return spring 15 is slightly bent upwards when not installed. With the angle piece 21 is an insulating pad carrying the mating contact strip io i connected i. An angle piece 2o screwed to the front strut 6 is used as a stop to limit the armature stroke.

The support plate 7 and the ones used to clamp the leaf spring 12 Bars 13, 14 are made of ferromagnetic material to ensure an unimpeded To enable lines of force flow, while the clamping of the current-conducting oscillating contact spring 9 serving pair of strips 22 is constructed from electrically highly conductive material. The power line to the oscillating contact spring 9 takes place via the mass of the excitation iron 4. The two ends of the excitation coil 5, the mating contact strip io and the ground of the excitation iron are each led to a soldering lug i. The struts 6 and the elbow 21 are made of non-magnetic metal, e.g. B. brass made. To build the Relays are said to be the iron core and coil form of the induction coil found in speech sets related. You only need the laminated ones for the new purpose Sheet metal removed from one narrow side of the iron core and the bobbin with the Rewinding to be provided. The following mode of action of the one explained results Audio frequency relay: When the relay is de-energized, armature 8 is set in such a way that that the contact body 17 and the associated mating contact are io open. Under The relay armature 8 begins in rhythm with the influence of the audio-frequency alternating current oscillating twice the frequency of the alternating control current, one being periodic interrupted contact in the circle of the oscillating contact spring 9 is achieved. The controlled one Alternating current of twice the audio frequency is fed to an auxiliary relay which brings about permanent contact for the duration of the control currents supplied to it and controls the actual work flow of sufficient strength.

Characterized in that the oscillating contact spring 9 with the tongue 16 on the relay armature rests, it is achieved that the vibrating contact spring will always vibrate with certainty executes in the rhythm of the tone-frequency armature oscillations.

Claims (2)

PATENT CLAIMS: i. Audio frequency relay, characterized in that the relay armature (8) carrying a vibrating contact spring (9) is resiliently attached to a non-polarized iron circle - (4) non-weakened cross-section and produces an oscillating contact at twice the audio frequency. 2. audio frequency relay according to claim i, characterized in that the closed iron core (4) one in telephone sets usual induction coil on one narrow side is interrupted and in the interruption place of the iron core of the relay armature (8) is pivotably mounted. 3. audio frequency relay according to claim i and 2, characterized in that the bearing point of the Relay armature (8) by a leaf spring (i2) forms is. , 4. audio frequency relay according to claim i to 3, characterized in that the bending point i the leaf spring (i2) through narrow webs (27) on both sides of the leaf spring cross-section weakening slot (26) are formed, the parallel to the clamping points of the blade spring (i2) runs. 5. audio frequency relay according to claim i to 4, characterized in that one parallel to the Relay armature (8) running oscillating contact spring (9) is supported against this. 6. audio frequency relay according to claim i to 5, characterized in that the oscillating contact spring (9) with a punched-out tongue (i6) rests on the relay armature (8). 7. audio frequency relay according to claim i to 6, characterized in that on the relay armature (8) at the same time with the Schwingkonta'ktfeder (9) one Return spring (i5) with adjustable spring force is clamped. B. audio frequency relay according to claim i to 7, characterized in that on both sides and across the legs of the U-shaped Iron core (4) struts (6) attached sin_l, on the one hand the support center for the the oscillating contact and return spring (9 or 1.5) supporting relay armature (8) and other on the other hand, the requirement for a counter contact (io) the oscillating contact spring (9) isolating Form base (ii). 9. audio frequency relay according to claim i to 8, characterized in that one of the Struts (6) attached angle piece (2o) as loading limit stop for the armature stroke is used. ok Audio frequency relay according to claims i to 9, characterized in that the oscillating contact (9, io) of the audio frequency relay an auxiliary relay with permanent contact controls.