SU744840A1 - Device for automatic regulation of voltage in networks with double-side power supply - Google Patents

Description

power voltage is applied to the voltage control unit (this is necessary to ensure a given control accuracy), as well as lack of reliability in operation, consisting in shorting the winding of the excitation from both sides by the contactors of the shorting block, but when switching in the circuit the time remains open, since the contacts of the shorting block must open before the contactors turn on to feed the field winding (this is necessary to prevent the power unit for short). At the same time, a high voltage will be induced on the field winding at the time of switching, which may cause damage to the winding (similar to the operating mode of the current transformer with an open secondary winding).

The purpose of the invention is to simplify the device and increase the reliability of its operation,

The goal is achieved by the fact that in a device for automatic voltage regulation in networks with two-way power supply, there is a booster transformer for connection to the distribution line and with excitation windings, control contactors, the coils of which are connected to the outputs of the voltage control unit, and the contacts in Bipi excitation winding, and the line current transformer, excitation winding of booster transformer is connected in triangle containing an equal number of consecutive sections in each field e, which are shunted by respective control terminals of the contactor, and the vertices of the triangle are connected by means of another control contactor contacts with terminals for connection to the three line phases, wherein the control unit is adapted to voltage variable resistor at the input of which is connected to a transformer line current.

The drawing shows a diagram of the device.

The automatic two-way booster device contains a booster transformer with a primary winding connected to the B line and excitation winding 2 connected in delta. Each arm of this triangle consists of successive sections, parallel to which are connected the contact pins 3 of the control contactor, the coil 4 of which is connected to one of the OUTPUTS of the voltage control unit 5, made of semiconductor or relay-contact elements. Block 5 input

The voltage control is connected to a variable resistor b connected to the secondary circuit of the current transformer 7. The tops of the triangle of the excitation winding 2 are connected via contacts 8 of the control contactor to the three phases of the line, and the coil 9 of this contactor is connected to another output of the voltage control unit 5.

Under normal mains voltage (and rated load), the voltage taken from resistor 6 does not trigger the voltage monitoring unit. Contactors are disconnected and there is no overvoltage in the network. When the load in the grid increases (and the voltage decreases accordingly), the voltage taken from the resistor b increases, which triggers the voltage control unit 5 and turns on the contactor 8. The transformer excitation winding 2 is connected to the line, as a result of which the winding 1 creates a voltage boost Ud, compensating for a decrease in line voltage. A further increase in the load in the line and a decrease in the voltage level triggers the operation of the contactor 4 and the shorting of a part of the turns of the excitation winding 2 by the contacts 3. As a result, the overdraft surcharge increases.

If the line load is reduced and the voltage is restored to the nominal level, all switches occur in the reverse order, respectively.

A change in the voltage of the power flow does not cause a change in the sign of the voltage boost.

Thus, the proposed device makes it possible to compensate for voltage losses in electric networks with two-way power, while it is much simpler, cheaper and more reliable than the known devices.

Claims (3)

1. USSR author's certificate number 164062, cl. H 01 F 31/02, 1964. 2. USSR author's certificate “43А 0, cl. H 02 J 3/12, 1971. 3. USSR author's certificate on application 2484210/07, cl. H 02 J 3/12, 1977. AT XA.V