SU668024A1 - Device for control of polarized remote change-over switch - Google Patents

Description

The invention relates to the field of electrical engineering and can be used as a relay contact trigger. A device for controlling a polarized remote switch with magnetic self-holding of contacts and four windings is known, which contains a resistor and a capacitor 1 connected in series with one of the windings. A disadvantage of such a device is a relatively large power consumption, since when the switch switches from a source of control voltage consumes not only the energy that is needed to operate the switch, but also the energy needed to charge the capacitor, which after the removal of the control voltage is uselessly allocated to the discharge resistance. The capacitance of the capacitor is always chosen with a safety factor, which also leads to an increase in energy consumption. The closest technical solution to the invention is a device for controlling an electromagnet, comprising on and off windings, control keys and an amplifier with a positive feedback connection connected to its output, providing control pulse 2 generation. However, this device also constantly consumes energy from the power source. The aim of the invention is to reduce the power consumption of the device. This is achieved by the fact that the proposed device for controlling a polarized remote switch contains a four-winding remote switch with magnetic self-holding contacts connected to the beginning of the control windings to a terminal for connection to the positive pole of the power source via control keys, and the ends of the control windings are connected together and connected to the collector the transistor connected by the emitter directly, and the base through the resistor to the output to connect the negative pole The power supply is equipped with two separation diodes, the anodes of which are connected to the emitter of the transistor, and the cathodes to the ends of the third and fourth windings of the remote switch, which are connected to the base of the transistor. The drawing is a diagram of the described device. The device includes a remote switch 1 with windings 2-5, a transistor 6, a resistor 7, diodes 8 and 9, control keys 10 and 1 1, a contact 12 of the remote switch, terminals 13 and 14 for connecting the positive and negative poles of the power supply. The device works as follows. After the corresponding emitter from KOTYuchi 10 is closed, the emitter-collector of the transistor 6 passes the control voltage through the winding 3, and a decreasing charge current of the junction flows through the winding. Since the windings 2 and 3 are placed on the same core of the switch, a voltage is induced on the winding 2 and a potential relative to the emitter appears at the base of transistor 6. Transistor 6 opens, and then, due to a decrease in the speed of the charge current of its transfer capacitance, the collector-emitter begins to close gradually, reducing the amount of current flowing through the winding 3. This decrease in turn causes a winding 2 for example which maintains the opening potential at the base of the transistor 6. The process of closing the transistor 6 lasts until the moment of moving the switch core. After that, the voltage on the winding 2 is induced already by changing the magnetic field when the core is transferred to its second end position, while the transistor 6 opens completely and remains in this state until the core stops, after which it closes. The power consumption from the control voltage source ceases despite the fact that the key supplying this voltage to the output of winding 3 is still closed. After this key is opened, the collector-emitter junction capacitance of the transistor 6 almost instantaneously discharges through the junction resistance and the device is prepared to be supplied by the control voltage key 11 to the output of the winding 4 to flip the switch core to the original position and open the junction 12. With this switching the process of opening and closing of the transistor 6 proceeds in the same way as described, except that the current providing the operation of the switch flows through the tripping breaker ke 4, and the voltage opening the transistor is induced on the additional winding 5. The voltage induced on the winding 2 when the switch core is switched to its first end position has the closing transistor 6 polarity, but it arrives at the base-emitter junction of this transistor prevents the separation diode 8, and the diode 9 from the winding 5. With the specified alternation of control voltage pulses, produced by the keys 10 and 11, it is possible to control several switches using one transistor 6. However, if the on and off pulses of one switch, produced by switches 10 and 11, may partially overlap in time, it is necessary to use two transistors 6 to control one switch. The leakage currents through the closed transistor 6 and resistor 7 are insignificant in magnitude and cannot lead to violation correct operation of the remote switch. The economic effect of using the invention is to save power sources of electricity. Formula of Invention A device for controlling a polarized remote switch comprising a four-winding remote switch with magnetic self-holding contacts connected to the beginning of the control windings to a terminal for connecting to the positive pole of the power source via control keys, and the ends of the control windings are connected together and connected to the collector of the transistor connected by the emitter directly, and the base through the resistor to the output to connect the negative pole of the power source Characterized in that, in order to reduce the consumed energy, it is equipped with two separation diodes, the anodes of which are connected to the emitter of the transistor, and the cathodes to the ends of the third and fourth windings of the remote switch connected to the base of the transistor. Sources of information taken into account in the examination 1. US patent number 3387188, cl. 317-155.5 1967. 2. Pletnev LF, et al. Telemechanics devices in urban electrical networks. M., “Energie, 1972, p. 33, fig. five.

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