SU1119122A1 - Device for automatic change-over from main d.c.load to stand-by d.c.load - Google Patents

Abstract

A DEVICE FOR AUTOMATIC SWITCHING WITH BASIC DIRECT CURRENT LOAD ON A BACKUP, containing a thyristor with a limiting resistor in the control circuit of the switchable load in the control circuit and having a protective element, in that, in order to expand the functionality, it is possible to put into it, it is possible to enter into the datatype of the control circuit and a protective element, in order to expand the functionality, it is used to switch on the control circuits and the protective element, in order to extend the functionality, to include a thyristor with a limiting resistor in the control circuit, a protective element, in the control circuit of the switchable load, in order to extend the functionality, the load on the switched load will be controlled by a resistor in the control circuit and a protective element, in this case , the protective element is designed as a fuse included in the power circuit of each load, and the thyristor control circuit of one load is connected to the junction point; and the second load. п Ab 5 with / about 1C

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.

A device is known for automatically switching from a main DC motor to a backup motor, comprising a fuse connected to the motor power supply circuit, a DC source, a double-winding polarized relay and a resistive current sensor connected to the input of the transistor amplifier, each winding of the motor being connected between one and the other. power supply width and the corresponding fixed contact of the polarized relay, the moving contact of which through a resistive current sensor under connected to another power supply bus. Each fixed contact of a polarized relay is connected to its respective windings, connected by second ends to the collector of the control transistor connected to the amplifier's collector, the base-emitter junction of which is connected parallel to the resistive current sensor.

A disadvantage of the known device is the low functionality of using current and load voltage. In addition, the known device has insufficient reliability of operation and switching speed of loads due to the presence of switching mechanical contacts in a two-winding polarized relay. The control circuit consists of two stages assembled on transistors, which also reduces the reliability of operation of the device.

Closest to the proposed technical solution is a device for automatically switching the base load of direct current to the backup one, which contains a thyristor with a limiting resistor in the control circuit and a protective element 2 in the power circuit of the switchable load.

A disadvantage of the prior art is low functionality.

The purpose of the invention is to extend the functionality

The goal is achieved by the fact that the diodes included in the thyristor control circuit are inserted into the device for automatic switching from the main load to the backup one, which contains a thyristor with a limiting resistor in the control circuit and a protective element, the protective element is designed as a fuse, each load included in the power circuit, and the thyristor control circuit of one load is connected to the point of connection between the fuse and the second load.

The drawing shows a diagram of the proposed device.

The device consists of main 1 and reserve 2 loads, whose power circuits are connected to the power supply terminals (as loads 1 and 2 can be all industrial electrical equipment, for example, thyristor units of various purposes, drives of rolling mills, etc.).

0 A protective element 3, such as a fuse, and a key element 4, such as a thyristor, are connected in series to the main load circuit 1, to the control electrode of which the limiting resistor 5 and diode 6 are connected in series to make up the main load control circuit 1.

The diode 6 of the control circuit of the main load 1 is connected to a common point of the next power supply circuit of the reserve load 2. The protective load 7 and the key 8 elements are also connected in series to the backup load 2. A limiting resistor 9 and a diode 10 constituting the control circuit of the backup load 2 are connected in series to the control electrode of the element 8. The diode 10 of the control circuit of the backup load 2 is connected to a common point of the previous main circuit, i.e. the main circuit of the main load 1.

0 Between the control circuit of the main load 1 (between the series-connected limiting resistor 5 and the diode 6) and the control circuit of the reserve load 2 (between the series-connected limiting resistor 9 and

5 diode 10) switching elements 11 and 12 are turned on, for example, the buttons “Start. The device works as follows. In the initial state, the buttons 11 and 12 are not turned on, and the thyristors 4 and 8 are closed, the current through the main 1 and the backup 2 load does not pass.

When the switching element 11 or 12 is turned on, the key element 4 or 8 is turned on, respectively.

So, when switching on

5 of the element 11 from the input terminal “-I- control current flows through the limiting resistor 5, the control electrode of the key element (thyristor) 4, the main load 1 and the protective device (fuse) 3 to“ - input source terminal

0 food. When the control current passes, the key element opens. 4 and from the input terminal "-J- through the power circuit, namely the open key-element 4, the main load 1 and the protective element 3, current flows

load. At this moment, the key element 8 is closed, since its control transition is covered by the protective element 3, and the load current in the power circuit of the reserve load is absent.

When the main load 1 fails, for example, during a short circuit, the protective element 3 is turned off (the fuse blows) and its shunting effects on the control transition of the key element 8 are eliminated. Then, the control transition of the key element 8 receives the control current from the input terminal of the power source "+" through the key element 4, the main load 1, the control circuit consisting of a diode 10, the limiting resistor 9.

Further, the control current passes through the key element 8, the backup load 2 and the protective element 7 "to" - the input terminal of the power source. When the control current passes, the key element 8 is turned on and from the input terminal "+ source power through the power circuit of the backup load 2, respectively, through the open key element 8, backup load 2, protective element 7, the load current flows to the" - input power supply terminal .

When the key element 8 is initially switched on by the switching element 12 (when the reserve load 2 is taken for the main load, and the main load 1 is

taken as a backup), a similar switching process takes place from the backup load 2 (taken as the main load) to the main load 1 (taken as the backup load).

The application of the invention allows to extend the functionality and increase the reliability of the smooth operation of the device.

Expansion of the functionality of the device lies in its application in a wide range, i.e. with different current and voltage loads, and is achieved by the fact that a thyristor is connected in series to the power load circuit, the limiting parameters of which determine

current limit and voltage (power) load.

Reliable and uninterrupted operation of the device when switching loads, for example, rolling mill drives, is ensured by the fact that the control circuit is not assembled from separate units, as in known devices, but from two elements that are connected in series and connected to the control circuit of the load circuit thyristor.

Claims (1)

DEVICE FOR AUTOMATIC SWITCHING FROM THE MAIN DC LOAD TO BACKUP, containing in the switching circuit power circuit a thyristor with a Limiting resistor in the control circuit and a protective element, characterized in that, in order to expand the functionality, diodes are included in the thyristor control circuit , the protective element is made in the form of a fuse included in the power circuit of each load, and the control circuit of the thyristor of one load is connected to the connection point of the fuse and W Roy load. SU, 1119122