PL4986B1 - Way of starting three-phase converters. - Google Patents

Description

The start-up of three-phase converters, used, for example, to equalize the load on two networks of different frequencies, is usually effective from a network connected electrically with the loading machine. Generally, the loading machine may be connected to this or that network at will. On the other hand, due to the possibility of advantageous dimensioning of the converter, it is appropriate to connect the loading machine to a specific network. If it is necessary to start the converter then, it can be done from this network only, but when this network is de-energized, or because it is supplied by the converter that is only being started up, or the other generators speak obedience, then there is no the possibility of starting the respective inverter. The present invention avoids this inconvenience. According to the invention, a three-phase converter with a load machine, designed to connect two networks of different frequency, is started from a network to which the load machine is not connected. This can be achieved by, for example, connecting a cascade load machine to a three-phase converter during start-up. With this method of starting, a high open-circuit voltage is first generated at the slip rings of the converter, which is provided by the cascading connection to the loading machine. If the stator winding of the loading machine is already not rated for such a high voltage, the more dangerous will of course be the voltage generated in the indicated windings (also inoperative) of the machine in question. In order to avoid this danger, in the parts of the control unit most endangered by the present invention, the present invention applies the reduction of the tension on the slip rings of the loading machine during start-up by means of known measures, until it drops by itself, thanks to the constantly increasing number of revolutions This reduction in voltage can be effected, for example, by means of a triangle-star connection or connected transformers, or between the mains and the three-phase converter, or by your cascade cable of the operating machine. After a certain number of revolutions is reached, the artificially induced voltage drop can be eliminated. In order to save the voltage reduction devices indicated above, it is necessary to provide the most endangered parts with sufficiently strong insulation. 1 of the attached drawing shows an example of an embodiment of the invention. The numbers 1 and 2 denote both networks of different frequencies I between which the three-phase converter 3 with the load machine 4 and the three-phase exciter 5 are to be set in motion. of the invention, the cascade cord. The switches 11 of the line connecting the network 1 to the inverter 3 and the switches 8 of the additional line to the network 2 are indicated in the off position prior to the start-up process, and the secondary current resistor 9 of the machine 4 is fully switched on. By way of example, it is assumed that the transformer 7 is connected to the cascade wire, but may also be connected at the location shown in the drawing. The start-up process is as follows: First of all, close the switch 11 and set the loading machine into motion, adjusting the thrust 9. When the voltage drops sufficiently after reaching a sufficient number of revolutions, the transformer may be turned off. After the desired frequency has been reached in this way, switch 8 can be closed. A further embodiment of the starting method in accordance with the present invention is shown in FIG. 2, in which the numbers 1 and 2 again represent both networks with different frequencies. The numbers 4, 5 and fO denote the loading unit in the form of an induction machine 4 and two DC machines 5, 10, connected with s, both according to the Leonardo scheme. Machines 4 and 5 are mechanically connected. Number 6 denotes a connecting cable according to the invention, 7 a transformer for temporarily reducing the resting voltage. From this it can be seen that any regulating system can be used for the load. As a loading machine, it is also possible to use commutator machines, the number of revolutions regulated by the adjustment of the brushes. PL

Claims (4)

Patent claims. 1. A method of starting a three-phase converter with a load machine used to interconnect two networks of different frequency, characterized by the fact that this start-up is effected from a network with which the load machine is not connected. 2. A method according to claim 1, characterized in that the converter and the loading machine are cascaded to each other. 3. The method according to claim 1 12, the significant point that for a certain starting time, the ratio of the voltage in the line leading to the converter, - 2 - to the voltage in the line leading to the loading machine, drops to a degree acceptable during rest by means of known means, for example, it prevents transformation. 4. The method according to p. 1 and 2, the significant point is that the entire control system, and possibly parts of the winding, which are most at risk during start-up, maintain sufficient insulation. Siemens-Schuckertwerke Gesellschaft mit beschrankter Haf tung. Deputy: M, Skrzypkowski, patent attorney. Print by L. Boguslawski, Warsaw. PL