SU826490A1 - Power supply source protection device - Google Patents

Description

The invention relates to electrical engineering, in particular to protection devices for power supplies, and can be used to protect against overloads and short circuits of rectifier circuits, power supply loads in various industries.

A device for protecting a power source, made on a power transformer, to the winding of which is connected a rectifier bridge with a capacitor in the DC circuit, containing a polarized relay and resistors [1].

The disadvantage of this device is its complexity.

The closest in technical means and the achieved result is a power supply protection device made on a power transformer, to the secondary winding of which is connected a rectifier bridge with a capacitor in the DC circuit, containing a polarized relay with opening and closing contacts _? a load resistor is included in the circuit of the first winding, a current-sensing resistor is included in the circuit of the second winding, and a signal lamp [2} is included in the circuit of the relay contacts.

The disadvantage of this device is its low reliability.

The purpose of the invention is to increase the reliability of the device.

This goal is achieved by the fact that the device is equipped with two additional capacitors and two diodes, the cathode of the first of which is connected to the primary winding of the transformer, the anode of this diode is connected to the load resistor and the first capacitor, which is connected to the other end of the load resistor through the first winding of the polarized relay and the primary winding of the transformer, the anode of the second diode is connected to the secondary winding of the transformer and a lead-in resistor, the cathode through the second winding of a polarized relay with the other end of the lead-in resistor, the open contact of the polarized relay and one of the plates of the second capacitor, the other cover of which is also connected to the cathode of this diode, and the closed contact of the polarized relay is connected by a rectifier bridge.

The drawing shows a diagram of a device for protecting a power source.

The power source 1 contains a power transformer 2, a rectifier bridge 3, a capacitor 4, a fuse 5, and a circuit breaker 6. At the output of the power source 1, a short circuit and overload protection device 7 is included, comprising a polarized relay 8, a current-sensing resistor 9, a load resistor 10, a first diode 11 and a second diode 12, capacitors 13 and 14 and an overload indicator 15.

The device operates as follows.

When the device is turned on by the circuit breaker 6, the mains voltage rectified by the first diode 11c of the load resistor 10 enters through the first winding of the polarized relay 8 to the first capacitor 13, charging it. In this case, the charge pulse of the first capacitor 13 sets the relay 8 to its initial state, corresponding to the closed contacts 16, 17 of the relay 8. The rectifier bridge 3 is connected to the output winding of the power transformer 2, and a voltage appears at the output of the power supply circuit 1.

When an overload or short circuit occurs in the load circuit or in the circuit of the power supply 1, the alternating current flowing through the current-sensing resistor 9 increases, and the voltage from it, smoothed by the capacitor 14, passes through the second diode 12 to the second winding of relay 8, causing the latter to trip. The contacts 16, 17 of the relay 8 are opened, and the contacts 17, 18 are closed. The rectifier bridge 3 is turned off, the signal lamp 15 is connected to the secondary winding of the power transformer 2 and signals the presence of an overload or short circuit. At the same time, there is no voltage at the output of power supply source 1.

In the operating state, the device is turned on by turning off the power source 1 by the circuit breaker 6 and turning it on again, and the charge current of the first capacitor 13 sets the polarized relay 8 to its original state, in the absence of a short circuit or overload in the output ** circuit of the device. The capacitor current is generated by the mains voltage supplied through the first diode 11 from the load resistor 10. In this case, the contacts 17, 18 are open, and the contacts 16, 17 are closed. Overload indicator 15, does not indicate an overload. This corresponds to the presence of voltage at the output of the power supply.

If the overload or short circuit is present in the Output ”circuit of the power source 1, then the charging pulse of the first capacitor 13 does not switch the polarized relay 8, since the overload or short circuit current flowing through the circuit of the current-setting resistor 9 and the first winding of the polarized relay 8 holds the contacts 17, 18 open. The secondary winding of the transformer 2 is disconnected from the input of the rectifier bridge 3. The overload indicator 15 indicates the presence of an overload or short circuit in the output circuit of the supply source источника. In this case, the voltage at the output of power supply 1 is absent.

In this device, the rectifier bridge and all power supply circuits are automatically disconnected during a short circuit or during an overload, and also when the device is turned on again, when an overload or a short circuit is not removed, the reset button is no longer necessary, which increases the reliability of the device.

Claims (2)

Hj; shaving refers to electrical engineering, in particular, to devices for protecting sources of fuse, and can be used to protect against overloads and short circuits is, eBe & rectifier, feed source load In various industries. A device for protection of a source of power is made on a power transformer, the winding of which is connected to a rectifying bridge with a capacitor in a DC circuit containing a polarized relay and resistors 1. The disadvantage of this device is eix) complexity. The closest technical result of the qicACTBa is a device for protection of the power source, wired from & on the power transformer, to the secondary winding of which, by connecting a rectifying bridge with a capacitor in dc, containing a polarized turnip with opening and closing contact, the load resistor is included in the first winding of the second winding, the current-carrying resistor is connected to the circuit of the closing contacts of the relay The warning light 2 is on. A disadvantage of this device is its reliability. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that the device is equipped with two additional capacitors (two capacitors and two diodes, the first cathode of the coils is connected to the center winding of the transformer, the anode of this diode is connected to the load resistor and the first x-sensor, which through the first winding is polarized the relay is connected to the other end of the load resistor and the primary winding of the transformer, the anode of the second diode with the input winding of the transformer and t (Jozaday1Sh1m resistor, the cathode - black The second winding is 1ULZ (ЖЖ relay with u} the coal end of the current-generating reactor, disconnecting with the contact of a polarized relay and one of the second xfenders & plates, the frame is also connected to the cathode of this diode, and the frame is connected to a frame and a fuse is connected. The drawing shows a circuit diagram of a device for protecting a power source.The power source 1 comprises a power transformer 2, a rectifying bridge 3, a capacitor 4, a fuse 5 and a circuit breaker 6. The output of power supply 1 includes a device for protection against short circuits and overloads, containing a polarized relay 8, a current-setting resistor 9, a load resistor 10, a first diode 11 and a second diode 12, a condensate 13 and 14, and an overload indicator 15. The device works as follows. When the device is turned on by the network switch 6, the network voltage, rectified by the first diode 11c of the load resistor 10, flows through the first winding of the polarized relay 8 to the first capacitor 13, charging it. In this case, the charge pulse of the first capacitor 13 sets the relay 8 to the initial state corresponding to the closed contacts 16, 17 of the relay 8. The forward bridge 3 is connected to the output winding of the power transformer at the output of the power supply source 1 circuit. When overloaded or short-circuited in the circuit n1; ruzki or in the circuit of the power supply source 1, the alternating current flows through the current setting resistor 9, increases, and the voltage from it, smoothed by capacitor 14, through the second diode 12 goes to the BTOpj winding of the relay 8, triggered last one. The contacts 16, 17 of the relay 8 open with, and the contacts 17, 18 are closed. The external bridge 3 is disconnected, the signal lamp 15 is connected to the secondary winding of the power transformer 2, and the signal indicating the presence of an overload or short circuit. At the same time, there is no low voltage at the output of the source 1. The operational state of the device is turned off by turning off the power supply 1 of the switch 6 of the network and re-activating it, and the charging current of the first capacitor 13 sets the polarized relay 8 to its initial state, without a short circuit or overload in the device output circuit. The capacitor current is generated by the mains voltage supplied through the first diode 11 from the load resistor 10. When this, the junction terminals 17, 18 are open, and the hrs and the gates 1 17 are closed. Overload indicator 15, does not indicate overload. This corresponds to the presence of voltage at the output of the power supply. 4 If, however, in the output of the power supply source 1 there is an overload short circuit, the charging pulse of the first capacitor 13 e switches the polarized relay 8, as well as the overload or short circuit flowing through the current-carrying circuit of the resistor 9 and the first winding of the polarized relay 8 holds contacts 17, 18 open. The secondary winding of transformer 2 is disconnected from the input of rectifying bridge 3. The overload indicator 15 signals the presence of an overload or short circuit in the output circuit of the source of 1 thread. At the same time, the output voltage of the power supply 1 is absent. In this device, the rectifying bridge and all power supply circuits are automatically disconnected during a short circuit or overload, and also when the device is turned on again when overload or short circuit is not removed, there is no need for a reset button, which increases the reliability of the device. Formula of the Invention A device for protection of a power source, made on a power transformer, to the secondary winding of which a rectifying bridge with a capacitor is connected to a direct current circuit containing a polarized relay with open and close contacts, to the first winding of which a load resistor is connected, In the circuit of the second winding a current-supplying resistor is included, a signal lamp is included in the circuit of the closing contacts of the relay, characterized in that, in order to increase reliability, it is equipped with two additional The two capacitors and two diodes, the cathode of the first of which is connected to the transformer primary winding, the anode of this diode is connected to the load resistor and the first capacitor, which is connected to the other end of the load resistor and primary transformer through the first winding of the polarized relay with the secondary winding of the transformer and the current-carrying resistor, the cathode through the second winding of the polarized relay with the other end of the current-to-resistor of the resistor with the opening contact of the polarized About the relay and one of the plates of the second capacitor, the other lining of which is also connected to the cathode of this diode, and the closing contact of the polarized relay is connected to a rectifying bridge. Sources of information taken into account during the examination 1. USSR author's certificate N 513442, cl. H 02 H 7/10, 1976. 2. Device for detecting the presence of metal. CNM-7354 - Description and operating instructions of CNM-7354, developed by VNIIAchermet. about network / Jffezpt / JK (, iS