SU146404A1 - Non Contact Polished Relay - Google Patents

Description

The existing polarized relays have a number of disadvantages: relatively low sensitivity and speed, the presence of control circuits, and contacts at the input, as a result of which these relays are not suitable for use in contactless switching devices.

In the proposed relay with two windings fed from the multivibrator, magnetizing in one direction the core on which the output winding is placed, an additional cup-shaped armored magnetic circuit is used, inside which the two specified windings are placed. Such a magnetic circuit device with windings placed inside it increases the sensitivity of the relay.

To collect the external magnetic field, the ends of the core are provided with pole pieces.

The Institute of Automation and Remote Control of the Academy of Sciences of the USSR gives a positive conclusion about the usefulness of the relay and its practical application.

FIG. 1 shows a control electromagnet; in fig. 2- input element of the receiving unit; in fig. 3 - schematic diagram of the relay.

The proposed relay is controlled remotely by means of a direct current electromagnet not galvanically connected to its control circuits. The electromagnet is a solenoid} of circular cross section, having a steel open core 2 and pole pieces 3 at the ends. The input element of the receiving relay unit is an armored core 4 (cup-shaped magnetic core), consisting of two cups of nickel-zinc ferrite, mounted on a cylindrical rod 5 of the same material. Pole tips 6, made of permalloy-type alloys, are designed to collect the magnetic flux created in space by an electromagnet of direct current and direct it to the core

No. 146404-2 -

input element. A coil 7 with three windings is placed inside the armored type magnetic core: two excitations 8 and 5 and one output (control) 10.

The operation of the proposed relay is described below.

According to the windings 5 and P, included in the collector circuits of planar triodes G | and the TZ symmetric multivibrator, passes a current of rectangular pulses, the magnetizing core. Winding 10 serves to control a single-stage amplifier assembled on a semiconductor triode T. At the output of the amplifier, a relay Pj (type MKU-48) is turned on.

The magnetization reversal of the magnetic system consisting of the armored core 4 with the cylindrical rod 5 is not carried out along the full hysteresis cycle, but only along one branch in the first quadrant of the rectangular hysteresis loop.

As a result, unipolar, peaked pulses arise in the output winding 10, the energy of which is sufficient to open the triode T3. In this case, capacitor Ci is discharged to the briefly opened triode TZ and, after closing the triode, keeps the actuating relay PI on by means of the charging current flowing through the relay coil. If the DC electromagnet is brought closer, for example, by the N pole to the input element of the receiving unit in the direction indicated by the arrow, then the magnetic flux of this electromagnet will penetrate the magnetic system consisting of the armored core 4 with the cylindrical rod 5, weakening the electromagnetic coupling between the windings 8, 9 on one side and the winding JO, as a result of which the emf arising in the winding 10 is weakened and the relay PI is turned off. It is enough to turn the DC electromagnet with another pole or to change the direction of the current in the coil of the electromagnet, as the relay turns on again. Thus, the core 2, and consequently, the entire receiving unit, feels the polarity of the DC magnet controlling it, reacting to the external magnetic field of only one, specific direction. Thus, the proposed relay implemented the unipolar principle.

Nredmet of the invention

Claims (2)

1. Non-contact polarized relay containing two energized. from the multivibrator windings, magnetizing in one direction the core on which the output winding is placed, is connected to the executive relay, characterized in that, in order to increase the sensitivity of the relay, an additional magnetic armor type is used, inside which the specified windings are placed. 2. Contactless polarized relay according to claim 1, characterized in that pole pieces are placed at the ends of the core. Fyg.  / G y  .