DE966368C - Remote control receiving relay - Google Patents

Description

ISSUED AUGUST 1, 1957

L 15469 VIIId 174 c

has been named as the inventor

Remote control receiving relay

The invention relates to a remote control receiving relay, which overlayed the web! picks up audio-frequency commands and executes the commanded switching functions. They are remote control receiving relays known with a number of command switches corresponding to the command number. Each command switch is controlled by a special one Contact arm switched.

All contact arms can be individually adjusted to the various commands independently of one another. The first received control pulse first charges a capacitor, which is located via a glow lamp and a relay discharges. A relay closes a contact and thereby switches on Electromagnet connected to the mains voltage or to part of it. The electromagnet moves then in the axial direction a switching axis that first switches on a synchronous motor through which it is set in rotation. If further control impulses are received, the ao Switching elements on the switching axis carry out the transmitted switching commands.

This arrangement makes use of two inductances, on the one hand the winding of the relay and on the other hand another of the winding of the electromagnet. The discharge circuit is set accordingly of the capacitor and the working circuit controlled by the contact with the electromagnet represent two separate circles within the receiving relay.

The receiving relay according to the invention simplifies the circuit of the known ones described above Receive relay through the use of a known cascade relay whose Auxiliary armature responds to the discharge current of a charging capacitor, the hip contacts closes

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and so that the relay winding applies to part or to the full mains voltage, so that the main armature a working stroke, for example in the sense of an axial displacement "of a switching axis ·, out-S leads.

For this purpose, the discharge circuit of the capacitor and the working circuit of the cascade relay connected to one and the same winding of the same. A received switching impulse, which initially charges the capacitor, closes when it is discharged via the glow lamp by means of a Auxiliary armature of the cascade relay has a contact that connects the relay winding to operate the main armature to the mains voltage or part of it, so that the main armature has a working stroke can perform. The main anchor is expediently seated on a non-magnetic one. Switching axis, that follows the movement of the anchor. The auxiliary anchor, in turn, will slide on the Main anchor stored.

The main advantage of the invention is that by using the cascade relay a special relay for the axial displacement of the switching axis is saved and thus a single relay coil takes over the function that was previously performed by two coils. the The result is a simplification of the circuit, less space required and less effort Recipient.

The different responses of the auxiliary resp. of the main armature can be ensured that the magnetic return of the cascade relay is dimensioned in such a way that it is not at low voltages, but strong at high voltages is oversaturated. The relay housing, for example, can be used as a magnetic return path. In order to be able to switch off the working circuit, one becomes a working contact and the contacts connected in parallel on the one hand and the cascade relay winding on the other a special switch-off contact operated by a switching disk on the switching axis switch. It is convenient to use the charging capacitor and the inductance of the relay winding for the mains frequency to vote on response. In order to give the charging capacitor a To give it a discharge option, an ohmic resistor will be connected in parallel.

An embodiment of the arrangement according to the invention is shown in FIGS. Fig. Ι shows the basic circuit diagram of the remote control receiving relay using a cascade relay. The capacitor C ₃ can be discharged via the glow lamp Gl and the cascade relay A when the contact sm _{e is closed.} The auxiliary armature of the cascade relay is attracted and contact α is closed. The cascade relay A is now connected directly to the mains voltage, under the influence of which the main armature carries out its working stroke.

In contrast to the circuit of the known receiver, the contact α and the contacts Sm ₁ and JiM _{2 are} directly connected to the mains voltage. However, it is possible not to lead the contacts mentioned directly to the mains voltage, but to the voltage between the resistors R ₁ and R ₂ .

The contact JW ₆ is in the same way as the contacts Jw ₁ or Jm ₄ of one on the switching axis 44. Cam operated in a known manner.

If the capacitor C ₃ does not discharge via the glow lamp Gl , it can discharge via the resistor R _s without, however, causing a further circuit.

Fig. 2 shows a cross section through the cascade relay. In the housing 41 is the relay winding 42, which is closed inside by the cylindrically shaped spatially fixed magnetic yoke part. When a switching pulse arrives, the auxiliary armature 46 is drawn into the inner, upper opening of the relay, which closes the contact α. If the relay winding 42 is connected to the mains voltage or a part of it, the main armature 45 is also drawn into the relay and takes along the switching axis 44 on which it is attached. The magnetic flux that occurs in the relay at low voltages is indicated by the dash-dotted line, while at high voltages it is indicated by the dashed line.

Claims (8)

PATENT CLAIMS: 1.Remote control receiving relay, which picks up audio-frequency pulse commands superimposed on the network and executes corresponding switching functions, in particular with a number of command switches corresponding to the command number and special contact arms assigned to each command switch, all contact arms being individually and independently adjustable to the various commands and the first control pulse received A relay can respond via a capacitor and a glow lamp, which in turn controls an electromagnet that moves a switching axis in the axial direction, characterized by the use of a cascade relay known per se, whose auxiliary armature (46) responds _{to the discharge current of a charging capacitor (C 3)} , the auxiliary contacts (a) closes and thus the relay winding (42) applies to part or to the full mains voltage, so that the main armature (45) has a working stroke, for example in the sense of an axial displacement of a switching axis (44), au s leads. 2. Remote control receiving relay according to claim 1, characterized in that the main armature sits on a non-magnetic switching axis that takes part in the movement of the armature. 3. remote control receiving relay according to claim 1 and 2, characterized in that the auxiliary armature is slidably mounted on the main anchor. 4. remote control receiving relay according to claim 1 to 3, characterized in that the magnetic table inference is dimensioned so that it is not at low voltages, at high voltages on the other hand is strongly oversaturated. 5, remote control receiving relay according to claim 1 to 4, characterized in that the relay housing also acts as a magnetic return path serves. 6. remote control receiving relay according to claim 1 to 5, characterized in that between the normally open contact and the contacts connected in parallel on the one hand and the relay winding on the other hand, a special switch-off contact (sm ₆ ) actuated by a switching disk seated on the switching axis is connected. 7. remote control receiving relay according to claim 1 to 6, characterized in that the charging capacitor and the inductance of the relay winding for the mains frequency are tuned to resonance. 8. remote control receiving relay according to claim 1 to 7, characterized in that parallel to the Charging capacitor is connected to an ohmic resistor. Considered publications: German Patent Nos. 857 828, 877 342; Swiss patents No. 230 349, 752, 253 099. 1 sheet of drawings © 709 612/30 7.57