SU584391A1 - Device for automatic change-over of load - Google Patents

Description

The invention relates to devices for auto matic load switching of a main network alternating voltage to a backup and may not be used for switching radio equipment.

The closest technical solution is a device for automatic switching of a load containing a transformer with two secondary windings, the primary winding of which is intended to be connected to the main network, one of the terminals of the secondary winding is connected to the synchronizing input of an auto-generator of stabilized sinusoidal voltage, the output of which is connected through sequentially connected rectifier, a key element with switching relay 1.

However, the known device has a low sensitivity to distortion of the shape of the voltage curve of the main network and insufficient performance. This is due to the fact that the comparison of the voltage of the main network and the voltage of the oscillator is made after their rectifying, i.e., at a direct current, as a result of which the information about the shape of the AC voltage curve is lost. In addition, since the secondary windings of the transformer and the generator are ungrounded, the device also has a reduced noise immunity. In order to increase speed, in order to increase the sensitivity to distorting the form of an alternating voltage of the main network, a differential amplifier was additionally introduced into the proposed automatic load transfer device; the input of the rectifier, and the second conclusions of the secondary windings of the transformer and the generator output are grounded.

The drawing shows a functional diagram of the described device.

The device consists of a load 1, a switching relay 2 with normally closed contacts 3 and normal-open contacts 4, a key element 5, a rectifier 6, including diodes 7 and 8, a capacitance 9 and a resistance 10, a differential amplifier 11 with resistances 12-15, the autogenerator 16, the transformer 17 with the primary winding 18 and the secondary windings 19 and 20.

The device works as follows.

An alternating voltage proportional to the voltage in the main network is supplied from the secondary winding 20 at one of the inputs of the differential amplifier. The other input of the differential amplifier receives the output voltage from a stabilized voltage generator that synchronizes the voltage of the main network through the secondary winding 19. The generator output voltage therefore coincides in phase with the voltage in the secondary winding 20 of the transformer n. normal voltage in the main network. Corresponding to the choice of resistances 12-15, the gain of the differential amplifier is equal to the non-inverting and ventilation inputs.

At the same time, in the undistorted form of the ripple voltage in the main network, the voltage at the output of the differential amplifier will be absent, and therefore, it will not be applied to the input of the key element either. The relay is in the initial state and, through normally closed contacts, connects the load to the main network. If the voltage in the main set or its shape changes, then the voltage is applied at the output of the differential amplifier. With this voltage, rectified by diodes 7, 8, using a key element, the relay is switched, which is connected by contacts 4, which connects the load to the backup network, disconnecting it from the main network.

It should be noted that, in the general case, it is not necessary to achieve equality of variables on the secondary winding 20 of the transformer and at the output of the generator, as well as equality of the gain factors of the differential amplifier on both inputs. The difference in the alternating voltages on the secondary winding and on the generator output can be compensated by adjusting the gain of the differential amplifier at its inputs. All that is necessary is that in the initial state, at a normal voltage in the main network and at a sinusoidal voltage in it, there was no voltage at the output of the differential amplifier. It also does not matter to which differential input

the amplifier is connected to the generator output and the secondary winding 20 of the transformer. In the described device, they are connected, respectively, to the inventorizing and non-indicative inputs of the differential amplifier. Connection may be reverse.

By using a differential amplifier, the device selects the difference in variable voltages, which significantly increases the sensitivity of the device to the distortion of the voltage in the main network. In addition, the device responds to both a decrease in voltage and an increase in voltage.

Claims (1)

Invention Formula An automatic load switching device containing a transformer with two secondary windings, the primary winding of which is intended to be connected to the main network, one of the secondary windings is connected to the synchronous input of a stabilized sinusoidal voltage oscillator, the output of which is connected via a rectifier connected in series, key with a switching relay, characterized in that, with the purpose of increasing speed, and increased sensitivity to distortion of the form of alternating voltage of the main network, a differential amplifier was additionally introduced into it, one of the inputs of which is connected with the output of the auto-generator, the second input is connected to the output of another secondary winding of the transformer, and the output is connected to the input of the rectifier, and the second terminals of the secondary windings of the transformer and the generator output are grounded. Sources of information taken into account during the examination 1. USSR author's certificate No. 353317, MKP P 02J 9/06, 1970.