SU884139A1 - Electronic-mechanical relay - Google Patents

Description

(54) ELECTRON-MECHANICAL RELAY

The invention relates to imputable technology and can be used in automation devices, telemechanics and. A mechanical-electronic relay is known that contains a transistor switch and an electromagnetic relay with two windings, one of which is shunched by a diode f 1 However, the device does not differ in speed. The closest to the invention in its technical essence is an electromechanical relay containing an electromagnetic magnetic relay with two windings, the first of which is connected to the first power supply cable by the first and the second power supply terminal to the second through a main transistor switch, the second winding is connected to the first output winding with the first power bus, and the second with the first output of the additional electronic key 2, the device does not have a high delay time of the first and the second winding re; e phototransist The optocoupler does not differ in its simplicity of design. The purpose of the invention is to simplify and improve speed. To do this, in an electromechanical relay containing an electromagnetic relay with two windings, the first of which is connected to the first power supply cable by the first and the second power cable to the second power supply cable through the second transistor switch, the second winding is connected to the second power supply cable, and .second - with the first output of an additional electronic key, the second output of an additional electric key is connected to the second output of the first winding of the electromagnetic pejE, and the control key 5; the secondary electronic key is connected with the first bus power. The drawing shows a circuit diagram of the proposed device. The electromechanical relay contains an electrical relay with the first winding I and the second winding 2, a transistor switch 3 through which the first winding I is connected to the buses 4 and 5 of the power supply, the transistor 6 of the additional electronic switch, the contacts of the electromagnetic relay 7 and the switch 8 power on To turn on the electromechanical relay, a control voltage is applied to its input, for example, by closing the switch-on Key 8. This closes the transistor switch 3 and the winding I of the electromagnetic relay is connected to the bus 4. At this time, the transistor 6 is closed, because before closing the switch 8 key, its base is connected to the emitter through the winding I of the electromagnetic relay its base is supplied with a locking voltage through the closed transistor K-3. When the switching-on key 8 is turned on, the transistor switch 3 is opened and the contacts of the electromagnetic relay 7 are released. During the opening period of the transistor switch 3 in the winding 1 inductive A self-induction EMF is running, and the current induced by the EMF flows through the base-emitter junction of the transistor b, opening it, and winding 2 is connected to bus 4 and winding terminal 1, where the potential is greater than that on the power bus 5 Current flowing through the winding 2, creates a magnetic flux directed opposite to the magnetic flux of the winding 1. As a result, the magnetic flux of the winding 2 compensates for the magnetic flux of the winding I, which leads to a decrease in the magnitude of the resulting magnetic flux, which reduces the release time of the electromagnet th relay 7 and therefore improves performance elektrshno-mechanical relay. The design of the proposed device is relatively simple. Formula of the invention Electro-mechanical relay containing an electromagnetic relay with two windings, the first of which is connected to the first power supply cable by the first and the second power cable to the second through a main transistor switch, the second winding is connected to the second power supply cable and the second, with the first output of the additional Electronic Key, which differs from the fact that, in order to simplify and improve speed, the second output of the additional electronic key is connected to the second output of the first winding a magnetic relay, and the directing lead of the additional gear switch is connected to the first power bus. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 440791, cl. H 03 K 17/08, 1970. 2. Avtoskoe certificate of the USSR, Ni 687598, cl. H 03 K 17/78, 1978 (prototype).

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Claims (2)

10 Claims An electronic-mechanical relay comprising an electromagnetic relay with two windings, the first of which is connected to the first power bus by the first 15 terminal and the second power bus through the main transistor switch, the second winding is connected to the second power bus by the first terminal, and the second one with the first output of an additional electronic key, characterized in that, in order to simplify and improve performance, the second output of the additional electronic key 25 is connected to the second output of the first winding of the electronic a magnetic relay, and the control terminal of an additional electronic key is connected to the first power bus. 30 Sources of information taken into account in the examination 1. USSR copyright certificate No. 440791, cl. H 03 K 17/08, 1970. ^! 2. USSR Auto Certificate, ³⁵ No. 687598, cl. H 03 K 17/78, 1978 (prototype).