SU1376070A1 - Load supply source - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in electronic equipment. The purpose of the invention is to improve the reliability of the load by providing uninterrupted power supply with limited current overload in case of short-term deviations from the normal power supply mode and guaranteed disconnection of the power supply of the load in case of a long-term emergency situation. Under normal operation, the load is connected to the secondary windings of transformer 2 via (L SLE SG5

Description

The driver 3 and filter 4, through the protection unit 6, closed the direct current circuit (DCA) of the full-wave rectifier 5, the inputs connected to the terminals of the primary windings of the transformer 2 on the neutral side. In the presence of overcurrent or short circuit, the sensor (DT) will operate

9 currents included in the CLT rectifier 5 in block 6 of protection. Output contact

10 closes, applying power to the relay 12, which is triggered, switching. Key contact .14, resulting in

A resistor 11 is introduced into the CLT of the rectifier 5, which limits the current and voltage applied to the load 1 to safe values. After the operation of the control unit (CU) 18 with a predetermined delay from the time of the operation of the relay 12, the latter returns to its original state, at.

This contact 14 eliminates the resistor 11 from the CLT of the rectifier 5. If by the time of the return of the relay 12 the malfunction is eliminated, the protection unit comes to a normal operating state providing power to the load 1. In the presence of an unresolved fault, the DT 9 is triggered. Relay 12 and the CU 18 are triggered either until the fault has been eliminated or until the blocking unit has triggered (the BVU 19 with another predetermined time delay from the moment of the first actuation of the relay 12. After the BB 19 trips, the relay 15 trips the open contact 16. The last blur DCT of rectifier 5. Current flow through the primary windings of transformer 2 stops. Load 1 de-energizes until the fault is eliminated. 1 Cp f-ly, 1 Il.

one

The invention relates to electrical engineering and is intended for use in electronic equipment.

The purpose of the invention is to increase the reliability of the load by providing uninterrupted power supply with the limitation of: - an overload current with short-term deviations from the normal, power supply mode and guaranteed disconnection of the load power during a long-term emergency situation.

The drawing shows the power supply source of the load.

The power supply source 1 comprises a power transformer 2, a power first rectifier 3, a filter 4, a full-wave second rectifier 5, a protection unit 6 with the first 7 and second 8 control terminals.

The protection unit 6 is made on the threshold current sensor 9 with the output closing first contact 10, the current limiting first resistor 11, used the first relay relay 12, with the second 13 and switching the third 14 contacts, disconnecting the second relay 15 with the fourth fourth contact 16, optional

power supply 17 and control units 18 and interlocks 19, the latter each including transistor 20, capacitor 21, third relay 22 and second resistor 23 shunting the base-collector junction of transistor 20, to the base of which in each block the first capacitor lead is connected 21, and to the emitter - the first winding lead of the third relay 22, the second lead of which is connected to the second lead of the capacitor 21. Relay 22 in the control unit 18 is equipped with a fifth contact 24, and in blocking block 19 - a closing sixth contact 25. Sequence The current control sensor 9, the disconnecting group of the switching third contact 14 and the fourth contact 16 are connected between the first 7 and second 8 control terminals of the protection unit 6, and the first resistor 11 is connected between the fixed contact parts of the switching third contact 14. the output of an additional power supply 17 through the parallel connected first 10 and second 13 contacts connected to the collectors of both transistors

20 and with the first pins of the first 24 and sixth 25 pins, the second pins of the first 12 and second 15 relays connected to the first pins, respectively, and the negative terminal of the additional power supply 17 is connected to the second pins of the first 12 and second 15, and two thirds 22 relays .

A current-limiting third resistor 26 and a closing seventh contact 27 of the third relay 22 are inserted into the control unit, the third resistor 26 and the seventh 15 device connected in series and coming into normal contact 27 are connected in parallel to the capacitor 21 of the control unit 18.

bach position If there is a malfunction, the process of activating the protection is repeated within a predetermined time determined by the delay time of the operation of block 19. The delay circuit of blocking block 19 works similarly to the circuit of block 18 of control, but with a large charge time of the capacitor 21. After a predetermined time has elapsed, the relay 15 trips, the contact 16 opens the circuit in the diagonal of the rectifier 5, and the current flows through the primary windings of the transformer 2 stops in all three phases by breaking the circuit formed by rectifier 5. Load 1 is de-energized until the fault is eliminated.

The power source works as follows.

The supply voltage is supplied to the primary windings connected to phases A, B, C of transformer 2, rectified in rectifier 3, filtered in filter 4 and fed to the load. In this case, in case of breaking the circuit in the diagonal of the second rectifier 5, the flow of current through the primary windings of the transformer 2 stops simultaneously in all three phases. The voltage on the secondary windings of the transformer 2 is missing. The open circuit of the second rectifier 5 excludes the operation mode of the three-phase transformer 2 from the two phases of the three-phase supply network. In the absence of overcurrent or short circuit, as well as the absence of an emergency situation in the supply network, the protection unit 6 does not affect the operation of the power supply source of the load. When one of these faults occurs, the current flowing through the threshold current sensor 9 increases, and its output contact 10 closes, applying voltage from an additional power source 17 to the relay coil 12, as well as to the control blocks 18 and blocking 19. The relay 12 trips, and its switching contact 14 closes the power supply circuit of the transformer primary windings through a resistor 11. In addition, contact 13 blocks relay 12. The current limiting resistor 11 limits the current and voltage supplied to the load to safe n When voltage is applied to the control unit 18 through the resistor 23, the terminal ends up charging

The capacitor 21, applying to the base of the transistor 20 an opening voltage. When the set voltage level is reached, the transistor 20 opens and the relay 22 of the control block of the contact 24 trips, breaking the power circuit of the coil of the relay 12, and the contact 27 of the relay 22 short-circuits the capacitor 21 through the resistor 26. The relay 12 returns to its normal operating position, the current flow circuit , mine current-limiting resistor 11. In the absence of a fault

5 the device comes to normal

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five

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5 5

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five

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bach position If there is a malfunction, the process of activating the protection is repeated within a predetermined time determined by the delay time of the operation of block 19. The delay circuit of blocking block 19 works similarly to the circuit of block 18 of control, but with a large charge time of the capacitor 21. After a predetermined time has elapsed, the relay 15 trips, the contact 16 opens the circuit in the diagonal of the rectifier 5, and the current flows through the primary windings of the transformer 2 stops in all three phases by breaking the circuit formed by rectifier 5. Load 1 is de-energized until the fault is eliminated.

The positive effect of the invention is to improve the reliability of the load by providing continuity of power supply with limited current overload in case of short-term deviations from the normal power supply and guaranteed disconnection of the power supply of the load in the event of a long-term emergency.

Claims (2)

1. A load power source containing a series-connected power transformer, a first rectifier and a filter with leads for connecting the load, a two-half-second second rectifier and a protection unit, the first and second control leads connected to the positive and negative leads respectively the second rectifier, to the inputs of which the first terminals of the primary windings of the power transformer are connected, the second terminals of which are intended to be connected5137607 to the power supply network, characterized in that, in order to increase the reliability of the load operation by ensuring continuity of the supply with limited current overload during short-term deviations from the normal mode and power supply and guaranteed power failure of the load during long-term emergency Q situations, the protection unit is made on a threshold current sensor with an output first contact, a current limiting first resistor, an executive first relay with a second closing and a switching third contact, disconnecting the second relay with a fourth disconnecting contact, an additional power source and control and blocking units - the latter each includes a transistor, a capacitor, a third relay and a second resistor shunting the base-collector junction of the transistor, to the base of which in each block the first capacitor lead is connected, and the first winding lead of the third relay is connected to the emitter, the second lead of which is connected to the second lead of the corresponding capacitor, the relay in the control unit is equipped with a fifth contact and in the blocking block with a sixth contact, serially connected measuring input the current sensor, the disconnecting group of the switching third contact and the fourth contact are connected between the first and second control inputs of the protection unit, and between the terminals of the fixed contact parts The first resistor is switched on the third contact, the positive terminal of the additional power source is connected through parallel first and second pins to the collectors of both of these transistors and the first pins of the fifth and sixth pins, the second pins connected to the first pins of the windings of the first and second relays, respectively and the negative terminal of the additional power source is connected to the second outputs of the first, second, and two thirds of the relay. 2. A power source according to claim 1, in which, in order to increase reliability by limiting the discharge current of the capacitor, a current-limiting third resistor and the closing seventh contact of the third relay are inserted into the control unit, the third resistor connected in series and The seventh contact is connected in parallel with the capacitor of the control unit.