SU904068A1 - Device for protecting electric from one or more phase disapperance - Google Patents

Description

(3) DEVICE FOR PROTECTION OF ELECTRICAL INSTALLATION

from the loss of one and more phases

one

The invention relates to electrical engineering and -can be used in three-phase voltage control systems.

A device for controlling the disappearance of one or more phases is known, comprising a three-phase rectifier connected to a source of controlled voltage, a charge-discharge circuit consisting of a capacitor, two (eesistors and a diode, thyristors and a dynistor 1.

However, such a device does not provide signaling of voltage drop. In addition, it can register a prolonged absence of phases only with a high-resistance load (so that during the pause time the capacitor does not have time to fully discharge).

The closest in technical essence to the present invention is a device for monitoring and signaling the loss of one or more phases, containing a three-phase rectifier.

The output of which is connected to the first diode and a resistor connected through a first capacitor with a zero bus, a second and a third diode connected respectively to a rectifier and a zero bus, and the second leads of the diodes connected to the plates of the second capacitor, in parallel with which is a chain consisting of connected first

10 thyristor, closed contact of control button and load, the fourth diode connected via the second thyristor and resistor, respectively, with the output of the rectifier and the common point

15 zero bus and the third resistor 23.

However, this device does not provide protection against false alarms during start-up (supply of controlled voltage), which limits its scope in those cases when electrical installations need to be disconnected when one or more phases disappear 390 and when Electrical installation (after the switching equipment: contactors, magnetic starters, etc.) falsely turning on the device at the time of start-up is unacceptable, as this will lead to shutdown of the electrical installation. The purpose of the invention is to eliminate false triggering at start-up. To achieve this goal, a device for protecting an electrical installation against the loss of one or more phases, contains a three-phase rectifier whose cathodes are connected to the mains phases, and the combined anodes are connected to the anode of the first diode, the first resistor, the cathode of the second diode and the cathode of the first thyristor, to the anode of which is connected to the cathode of the third diode and the second resistor connected to the neutral wire; the cathode of the first diode is connected to the first capacitor connected by its second output to the neutral wire and the fourth anode of the same iodine, between the cathode of the cathode and the anode of the second diode, is connected secondly a capacitor, in parallel with which is connected a circuit of the second thyristor connected in series, the break contact of the control button and the winding of the actuator element, two capacitors are added, the fifth diode, the threshold element and the resistors; the second thyristor electrode through the third resistor and the threshold element is connected to the output of the third capacitor, the other output of which is connected to the cathode of the first thyristor and the common plus The current output of the rectifier, the control electrode of the first thyristor through a fourth capacitor connected in series, shunted by a fourth resistor, a fifth diode, and a fifth resistor are connected to the neutral wire. The drawing shows a schematic diagram of the proposed device. The device contains a half-wave rectifier 1, to the input of which three-phase voltage is applied, dividing diodes 2 and 3, f-6 diodes, capacitors 7-10, thyristors 11 and 12. threshold element 13, resistors, an actuator winding, for example, relay 21 and button 22. When a controlled voltage is applied to the device, capacitors 7.8 and E are charged. A positive potential simultaneously through the limiting resistor 19, the diode and the capacitor 10 opens the thyristor 12 which, through diode 5, shunts the capacitor 9 and closes the threshold element 13 with a negative voltage, thus excluding the switching on of the thyristor 11. The constant charging time of the capacitor 9 and the triggering level of the threshold element 13 Interior dissolved delay time of the thyristor switch January 1 in order to protect from false incorporation when applying voltage to the device. When all phases are applied, the rectified voltage pulses overlap in time, so at the output of rectifier 1 to the thyristor 12 connected in series with the resistors 18, a relatively high bus voltage, which keeps the thyristor 12 in the on state, is constantly applied . When one or more phases disappear, the voltage at the output of rectifier 1 becomes pulsed, and between the pulses it becomes zero, and the current flowing through the thyristor 12 and resistor 18 at these times decreases to zero, which leads to the thyristor disconnecting 12. At the same time, the capacitor 9 begins to charge through the resistor 17. As soon as the voltage on the capacitor 9 reaches the trigger voltage of the threshold element 13, the latter triggers and the capacitor 9 discharges through the threshold element 13, the resistor 15, the control electrode-cathode of the thyristor 11, diode 2. The thyristor 11 is turned on and a current begins to flow through the winding 21 of the actuating element. When one or more phases disappear, the flow of current through the winding 21 in the gaps between voltage pulses is provided by the capacitance of the capacitor 8. The actuator can be disconnected either by pressing button 22 or by disconnecting the three-phase power supply to the device, for example, when One or two phases connected in parallel to the electrical installation, the proposed device is de-energized and switches off the electrical installation with the help of the executive relay 21. The device allows both short-term phase loss (one, two half-periods) and a long absence of phases, i.e. This mode of operation, when the disappearance of the voltage for several periods (if necessary, and a few seconds) does not lead to the inclusion of the load. The registration of a continuous absence of phases is achieved using the time of the driver circuit consisting of capacitor 7, diode i and resistor T. Resistor L serves to charge capacitor 7. When a phase (or two phases) disappears between the pulses, the capacitor 7 is discharged through a diode k, tycopier 12 and resistor 18, thus keeping a certain time, depending on the constant time of the discharge, the thyristor 12 in the on state. When three phases disappear for a long time, the device ensures switching on the actuator 21 for a period of time, the duration of which is determined by the constant discharging time of the capacitor 8. Thus, the proposed device provides for recording (signaling and blocking) both short-term and long-term interruption. phase and eliminates false start during start-up, which allows it to be used to protect electrical installations against the breakage of one or more phases. The device for protection of electrical installation against the loss of one or more phases, containing a three-phase rectifier, the cathodes of the diodes of which are connected to the phases of the network, and the combined anodes are connected to the anode of the first diode, the first resistor, the cathode of the second diode and the cathode of the first thyristor, the anode of which is connected to the cathode The third diode and the second resistor connected to the neutral wire, the cathode of the first diode is connected to the first capacitor connected by its second output to the neutral wire and the anode of the fourth diode, I Waiting for the cathode and the anode of the second diode is connected to the second capacitor, in parallel with which is connected a circuit consisting of the second thyristor connected in series, the disconnecting contact of the control button and the winding. Executive elementary, characterized by the fact that, in order to prevent false triggering during start-up, two capacitors are added to it The fifth diode, the threshold element and the resistors, while the control electrode of the second thyristor through the third resistor and the threshold element is connected to the output of the third condensate An other terminal of which is connected to the cathode of the first thyristor and the common positive output of the rectifier. The control electrode of the first thyristor is connected through a fourth capacitor shunted by a fourth resistor in series, the fifth diode and the fifth resistor are connected to the neutral wire. Sources of information taken into account during the examination 1. USSR author's certificate No. 5583 “2, cl. H 02 H 3/24, 19752. USSR author's certificate according to application ff 2769636 / 18-21, cl. H 02 H, 1979.

Claims (1)

Claim Device for protecting electrical installations from the disappearance of one and more909068