SU202311A1 - DEVICE FOR POWER SUPPLY OF MULTIPLE CONSUMERS - Google Patents

Description

Known devices for power supply Several consumers, such as induction heating systems, from a multiphase network, containing adjustable booster transformers, do not provide a sufficiently uniform distribution of the load across the phases of the supply network.

In industrial practice, there are issues related to the need to balance load values across phases in order to maximize the use of installed power of power supply transformers and ensure the normal operation of various electrical consumers, for example asynchronous motors. Balancing with the help of special balancing devices, such as inductive-capacitive, to suppress negative-sequence currents arising from load unbalance is not always economically justified and, moreover, requires an individual balancing device for each user.

The most important problem arising in the presence of a significant number of variable loads and extensive networks is the need to distribute the load with sufficient uniformity often within even one phase in order to economically use the existing conductors and avoid their local overloads. Currently, reliable power circuits for these purposes are not available.

A distinctive feature of the proposed device is that it is equipped with a phase comparison and power distribution unit, the input of which is connected to current and voltage transformers installed on each load, and the output to switching units that connect the booster transformer to any of the network phases and at the same time switching desoldering his primary winding. This unit may be connected to other consumers connected to the mains.

These features make it possible to achieve a more even distribution of power across the phases, taking into account the loads of consumers powered by this device, while simultaneously adjusting the power of each consumer, as well as distributing the power to the phases taking into account all consumers connected to the network and outside this device.

Pa figs. 1 is a schematic electrical diagram of the power section of the proposed device for supplying electrical installations from an AC network in relation to a three-phase induction installation of industrial frequency; in fig. 2 is a block diagram of the device.

The power consumption control, balancing and load distribution of an induction installation connected to a three-phase network (phases A, B, C) is considered as follows.

Each of the inductors, And, And, And, is controlled by a system of the same type consisting of a switching unit, booster transformer and linear switch-disconnectors. For the inductor And in this case, the control system consists of a switching unit BC on K - KB contactors, a booster transformer W and a linear contactor-disconnector / Cd.

Booster transformers are used to reduce switching power. The primary winding of the booster transformer can in principle be connected to both the primary and secondary windings of the power supply transformer, the secondary winding of the booster transformer is connected in series with the controlled load.

KS contactors serve as a consonant with the main voltage supplying a controlled load, applying voltage to the primary winding of booster transformers; KQ contactors - for counter flow.

The contactor Lt applies a higher voltage to the secondary winding of booster transformers, the contactor Ks, a lower voltage. In principle, it is possible to have several intermediate levels of control voltage by installing several contactors to the output tapes of the primary winding of a booster transformer, or to introduce smooth voltage regulation, for example, to saturation x throttle.

In addition, the switching unit provides the possibility of obtaining additional voltage steps due to the fact that voltage can be applied through the voltage boost transformer, shifted by a certain angle relative to the main one.

The balancing of the load values by phases is carried out as follows.

The data on the values of their values that are received in the unit of comparison and distribution of the BSBs are appropriately processed, and the result of the comparison is outputted as an electrical signal.

most loaded inductor. The latter, using its corresponding contactor, connects the booster transformer to the least loaded phase. In this scheme, it is possible that all booster transformers can be connected to one of the phases. After these switchings, the required power of the regulated loads is achieved by means of switching units.

Information about the load on the phases inside this device is supplied to the BSR in the form of electrical signals of current and voltage from current transformers T1, TT, TT and voltage transformers TN, TN, TN, installed at each consumer.

Comparison of loads, with the aim of distinguishing the smallest, can be carried out according to any known system, the latter can also be newly developed.

The circuit provides the ability to distribute the loads included in it, taking into account the state of the entire power grid as a whole, including this device. This possibility is achieved by using an additional input. Yes, from external sources into the element of the input EV, which is part of the unit of comparison and power distribution of the BSR, data on the distribution of load across the phases of the network outside the device.

Subject invention

Claims (2)

1. A device for powering several consumers, for example, induction heating systems, from a multiphase network, containing booster transformers by the number of consumers whose secondary windings are connected in series with the load, and the primary windings have several taps, which are connected through switching units to all phases of the network, different to that that, in order to more evenly distribute the power across the phases of the network, it is equipped with a unit for comparing and distributing power over the phases, the input of which is connected to transformers of current and voltage transformed on each load, and the output with switching blocks. 2. The device according to claim 1, characterized in that the unit for comparing and distributing the power by phases contains an element of additional input data on the distribution of the power of consumers by the phases of the electrical network outside the device.