SU1304128A1 - Device for automatic switching from main d.c.load to backup load - Google Patents

Abstract

The invention relates to electrical engineering, mainly to converter equipment, and can be used in powerful thyristor units l, l power supply of a rolling mill drive. The goal is enhanced functionality. Through the POWER main load circuit (OH) 13 i, cocTi; Hiu IV,. „. iiipiicTupa (T) 3, OH 1, fuse 5, and resistor 7, an OH 1 current flows. Opening of T 3 causes a positive voltage to appear at the connection point of the cathode T3-OH 1. A sudden change of this voltage due to the forcing RC- the chain 9 is transmitted to the base of the transistor switch 13 and opens it. by providing the njyHTHpOBaHHe control of the N4 transition of the T 4 and keeping it in the closed state. After the nepexojun.jx processes are terminated, the forcing RC-uenoMKi 9 is terminated. lio npi. -JTOM Oil 1 current creates a voltage drop across the additional resistor 7, sufficient for .1 holding the transistor switch 13 in the oTKpbJTOM state. When the OH 1 fails, the fuse 5 is turned off. Transistor 1P1 key 13 is closed. Through y1, the equalization of the c:: 1Y junction T 4 flows a control current. and T 4 opens. At this, the backup load 2 is connected. 1 and l. iC (L with about 4 y 00

Description

The invention relates to electrical engineering, primarily to converter technology, and can be used in high-power thyristor units for powering a rolling mill drive.

The purpose of the invention is to expand the functionality.

The drawing shows a schematic diagram of the device.

The device for automatic switching from main load 1 of direct current to reserve 2 consists of thyristors 3 and 4, protective elements in the form of fuses 5 and 6, additional resistors 7 and 8, forming RC chains 9 and 10, Zener diodes II and 12, transistor keys 13 and 14.

The output of the transistor switch 13 through a series-connected diode 15 and a limiting resistor 17 is connected to the control unit 1 of the thyristor 4, and the output of the transistor switch 14 through a series-connected diode 16 and the limiting resistor 18 to the control electrode of the thyristor 3.

The power circuit of the main load 1 consists of a series-connected thyristor 3, the main load 1, a protective element 5 and an additional resistor 7, the signal from which is fed to the input of the transistor switch 13. The collector load of the transistor switch is connected to the connection point of the cathode of the thyristor 3 and the main load 1

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tension in the point of connection of the cathode of the thyristor 3 with the main load 1. A discontinuous change of this voltage due to the forcing RC-chain 9 is transmitted to the base of the transistor switch 13 and opens it 5, providing control of the thyristor 4 and controlling it in a closed state nii. After the end of the transients, the action of the forcing RC-chain 9 is stopped, but at the same time the main load current 1 creates a voltage drop on the additional resistor 7, sufficient to keep the transistor switch 13 in the open state.

When the main load 1 fails (for example, at short circuit) the protective element 5 is turned off (the fuse blows) and the current flows through the main load circuit 1 and the current flow stops when the main load breaks 1. As a result, the voltage drops on the additional resistor 7 is close to zero, the transistor switch 13 is closed and does not shunt the thyristor control transition 4. A control current from the positive pole of the power source starts flowing through the thyristor control transition 4 and 19 through the thyristor 3, the collector load of the transistor switch 13, the diode 15, the limiting resistor 17 and then through the backup load 2, the protective element 6, in addition

20

13, and through the focusing RC-chain 9 - the grounding resistor 8 to the negative pole of the DC source 19. The flow of this current leads to the opening of the thyristor 4. At the same time, through the power circuit of the reserve load 2, consisting of the thyristor 4, the reserve load 2 , fuse 6 and additional resistor 8, a backup load current flows 2.

The device functions in the same way when the backup load 2 is initially connected, for which you need to turn on the start button 21. Zener diodes 11 and 12 are designed to prevent the transistor switches 13 and 14 from going out during overloads in the main 1 and back-up 2 power circuits.

Claims (1)

Invention Formula 40 the base of the transistor switch 13, the emitter of which is connected to the negative pole of the source 19 of direct current and one of the terminals of the additional resistor 7, the second terminal of which is connected through the zener diode 1 1 to the base of the transistor switch 13. 35 The positive pole of the source of direct current 19 is connected to the thyristors 3 and 4, and through the start buttons 20 and 21 and the limiting resistors 18 and 17 are connected to the control electrodes of the thyristors 3 and 4, respectively. The device works as follows. In the initial state, the start buttons 20 and 21 are not turned on, the thyristors 3 and 4 are closed, there is no current through the ground 1 and back up 2 loads. To connect the main load 1, the start button 20 is turned on and from the positive pole of the direct current source 19 through the limiting resistor 18, controlling the thyristor 3 transition, the main load 1, fuse 5 and the additional resistor 7 to the negative pole of the source, the control current flows opening of the thyristor 3. At the same time, through the power circuit of the main load 1, consisting of the thyristor 3, the main load 1, the fuse 5 and the device for automatic switching from the main load is constant About the current to the backup, containing in the main and backup load power circuits protective elements in the form of a fuse and thyristors with limiting resistors and diodes in the control circuit, characterized in that, in order to extend the functionality of the device, two additional resistors are introduced into it, boost RC chains, two zener diodes, two an additional resistor 7, a current 55 of the transistor switch flows to the connection point of the main load 1. Opening the thyristor-cathode of the thyristor and one of the loads of work 3 causes the appearance of a positive switch collector load transistor0 tension in the point of connection of the cathode of the thyristor 3 with the main load 1. A discontinuous change of this voltage due to the forcing RC-chain 9 is transmitted to the base of the transistor switch 13 and opens it 5, providing control of the thyristor 4 and controlling it in a closed state nii. After the end of the transients, the action of the forcing RC-chain 9 is stopped, but at the same time the main load current 1 creates a voltage drop on the additional resistor 7, sufficient to keep the transistor switch 13 in the open state. When the main load 1 fails (for example, at short circuit) the protective element 5 is turned off (the fuse blows) and the current flows through the main load circuit 1 and the current flow stops when the main load breaks 1. As a result, the voltage drops on the additional resistor 7 is close to zero, the transistor switch 13 is closed and does not shunt the thyristor control transition 4. The control current from the positive pole of the power source starts to flow through the thyristor control transition 4 19 through the thyristor 3, the collector load of the transistor switch 13, diode 15, resistor 17 vayutsl.y restrictive and further through the load 2 back protective member 6 dopol5 0 A device for automatically switching from the base load of direct current to the backup, containing in the main and reserve load power circuits protective elements in the form of a fuse and thyristors with limiting resistors and diodes in the control circuit, characterized in that, in order to extend the functionality of the device, Two additional resistors, two forcing RC chains, two Zener diodes, two  transistor switch, and to the connection point of the thyristor cathode and one of the loads under key, and through the forcing RC-torx key, and through the zener diode - to the base the kidney is the base of a transistor switch, an emitter-transistor switch, the control circuit of which is connected to one of the one load transducer connected to the emitter resistor, the second transistor switch to the second which is connected to the transis-load collector.