SU1005251A1 - System for dc supply of heavy-duty loads - Google Patents

Description

tori. The regulation of the rectified voltage of this system is carried out with the help of controlled valves in the uncompensated half of the rectifier bridges of the converters, i.e. with the help of controlled valves to which two-phase equalization reactors are connected.

The disadvantage of this power supply system is that with deep regulation of the rectifying voltage by means of controlled gates the power factor is reduced to unacceptable values for powerful systems. This is accompanied by a significant reduction in Cosf power supply. In addition, such a system, requiring the installation of controlled valves in converters, is more complex and less reliable than systems on uncontrolled valves.

The closest to the present invention is a DC power supply system for powerful consumers, such as graphitization furnaces, containing adjustable compensated units, each of which consists of a transformer with a switching device, which are connected to three-phase secondary windings with rectifying bridges with uncontrollable valves that compensate devices and saturation throttles, and adjustable uncompensated blocks, consisting each of a transformer with a switching device, to a three-phase secondary The windings of which are connected in parallel rectification bridges with uncontrolled gates, and saturation throttles.

However, in this power supply system, transformers of uncompensated rectifiers are loaded with reactive power consumed from the network, and transformers of compensated converters are loaded with reactive power generated into the network. Therefore, the power supplied to the load, for example, to the graphitizing furnace, is not active in any converter, and consequently, the entire system cannot be brought to full capacity of the Transformers.

The aim of the invention is to obtain in the active power load equal to the total power of all transformers.

This goal is achieved by the fact that, in the DC power supply system, powerful consumers, for example, graphitization furnaces, contain adjustable adjustable blocks, each of which consists of a transformer with switching devices, whose three-phase secondary windings of which are connected in parallel with rectifying bridges with

uncontrolled valves, a compensating device and saturation throttles, and adjustable uncompensated blocks consisting each of a transformer with a switching device, to which three-phase secondary windings are connected parallel straightening bridges with unmanaged control valves,; and saturation throttles, each of the uncompensated blocks equipped with a compensating device, and in each of the compensated and uncompensated blocks a compensating device is connected between the cathode group of the ventilation There are rectifying bridges and one of the output pins, and each of the saturation throttles is connected between the connection point of the secondary winding of the corresponding phase and the power electrode of the anode group of the rectifying bridges.

The supply of each rectifier in the power supply system with compensating devices connected only from one side of the rectifying bridges, and switching on, throttles of saturation only on the other side of the bridges ensures that the active power in the furnace is equal to the total power of all transformers of the system since in this case the power supply system is not the need to cover the reactive power consumption of one rectifier with neighboring rectifiers, since each rectifier provides shepherd V 1. This frees up All rectifiers from the consumption or generation of -powerful power, and therefore, the active power of each rectifier can be brought to the full power of its transformer. In this connection, the active power supplied by the power supply system to the graphitization furnace can be increased to the full power of all transformers of the system. At the same time, the power supply cosf remains unchanged.

The drawing shows a block diagram of a power supply system for a graphitizing furnace with a developed circuit of one of the converters.

The power supply system of the graphitizing furnace 1 contains adjustable compensated vpors 2, having a transformer 3 with a switching device, rectifying bridges with uncontrolled gates 4, on one side of which compensating devices 5 are connected, and on the other side - chokes are saturated;

During the operation of the power supply system, the lagging phase of the primary current of each rectifier from the mains voltage due to the inductive resistance of the transformer 3 and the control

Claims (1)

Claim A DC power supply system for powerful consumers, such as graphitization furnaces, containing adjustable compensated blocks, each of which consists of a transformer with a switching device, the three-phase secondary windings of which are connected in parallel rectifier bridges with uncontrolled valves, compensating devices and saturation chokes, and adjustable uncompensated blocks each consisting of a transformer with a switching device, to the three-phase secondary windings of which connected rectifier bridges connected in parallel with uncontrolled valves, and saturation chokes, characterized in that, in order to obtain. in the load of active power equal to the total power of all transformers, each of the uncompensated units is equipped with a compensating device, and in each of the compensated and uncompensated units, a compensating device is connected between the cathode group of rectifier bridge valves and one of the output terminals, and each of the saturation chokes is connected between the connection point of the secondary winding of the corresponding phase and the power electrode of the valve of the anode group of the rectifier bridges. VNIIIPI Order 1921/74 Circulation 685 Subscription Branch of PPP Patent, Uzhgorod, Project 4,