SU452875A1 - Relay with magnetic contacts - Google Patents

Description

 The relay belongs to the field of ecmamagic technology and can be used as a switching element of increased reliability and cost effectiveness. The relay with magnetically controlled contacts is known, which are controlled by two electromagnetic coils. In known relays, the magnetically controlled contact sticks when the control is turned off. I The purpose of the invention is to eliminate sticking of contacts when pushing and increase the eco- nomics of the relay. ji This is achieved by connecting the coils to the coils parallel with each other. but according to, and in the circuit of one of the coils. the capacitor is shunted by a diode in the opposite direction to the control current. The drawing shows a diagram of the proposed relay. The turnips have control coils 1 and 2 connected by outputs in such a way that I in Mages of the controlled contact 3 when the switch 4 is closed, Mai and F are formed. Consistent flows F., laziness. Coil 2 with one pin is connected directly to the corresponding pin of coil 1, and the other through capacitor 5, parallel to which diode 6 is turned on. Structurally, the relay can be made, for example, with internal or external reed switches relative to coils 1 and 2, which are placed with side ends of the herconsj. When the switch 4 is turned on, the current from the constant voltage source flows through the coil 1 ((,) in the indicated direction and creates a magnetic flux F through the elements of the reed switch. From the moment the switch 4 was turned on and until the capacitor 5 was charged, a current flows and creates a flux Φ с, directed alternately with Φ ... Under the action of the total flux Φ F .. + Fr, a mutual attraction arises between the ferromagnetic electrodes and the contact is lost. As the co-electrode 5 is charged, the current in the coil 2 stops and comte t is kept in a closed state by means of the current in the coil 1. As for the reed switch, power is required in the control circuit of the combat than to keep it in a closed state, the proposed relay is more economical than a relay. one coil from a constant voltage source: When the switch 4 is operated through the coil 1, the current Taitoro continues for some time to flow in the same direction as it was before it was turned off. The sources of this current are self-induction sdc arising in coil 1 and having such a polarity at which the induced current will tend to maintain the state of the magnetic field (Φ,), which precedes the opening time of the switch 4, and also d capacitor 5. The currents generated from e, d.s. self-induction and discharge of the capacitor, have the same direction, but through the coil 1 they flow in the same direction as before the relay was turned off, and through the coil 2 in the direction of the relay. The magnetic fluxes F 2 1 created by them have the opposite direction causing the mutual repulsion force between the ferromagnetic electrodes. Diode 6 prevents oscillatory process in the circuit. The invention of the Relb with magnetically controlled clamping, there are two means: controlled coils, electrodes are located between the cells, and the switch is located on the ampli fi cation of the coils power supply circuit, characterized in that, in order to prevent contacts from sticking when turned off, and to increase the efficiency of the relay, control modules, which are attached to the coils, are controlled by electrodes. parallel to each other, and in the circuit of one of the coils a capacitor is connected that is shunted by a diode in the opposite direction of the control current.

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