SU561529A3 - Power switch otpaek transformer - Google Patents

Description

(54) POWER SWITCH TRANSFORMER REDUCTION

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The invention relates to the field of transformer voltage control under load.

Power transformers of control transformers are known, consisting of main and auxiliary contacts and intermediate resistors, in which the load switching is carried out stepwise by using active intermediate resistors 1.

The switching of the devices takes place in such a way that the intermediate resistor corresponding to this stage is first included in the circuit of each stage, after which the first stage intermediate resistor is disconnected and, finally, the main contact of the second stage is closed. But switching off such switches is possible when the voltage and current are in phase

The latter takes place when the reactive resistance of the switch can be neglected in comparison with its active resistance. In special cases, however, it may be that the impedance of a part of the winding is substantially greater, and therefore there is a significant phase shift primarily on the auxiliary contacts between the switching current and the voltage. Such cases are possible in industrial transformers with very different step voltages and with induction control.

In the case of a switch operating at a power boundary, the effect of a phase shift can lead to critical loads.

The closest in technical essence and the achieved result to the insulation is a power switch containing main and auxiliary moving and fixed contacts, as well as auxiliary and intermediate resistors connected in a certain way. But even with such a switch, without matching the value of the auxiliary resistor with the impedance of the part of the switching circuit and with the active resistance of the intermediate resistors, there is a phase shift between current and voltage and, as a consequence, a duplication at the auxiliary contacts C2.

The purpose of the invention is to increase reliability by improving the switching conditions of the auxiliary contacts.

This goal is achieved in that the value of the auxiliary resistor is consistent with the winding impedance of the winding and with the active intermediate resistors of the power switch. To achieve the desired effect, it is necessary that its resistance be one to two orders of magnitude greater than the resistance value of intermediate resistors.

In this case, even with impedances in the circuit of the power switch stage on the auxiliary contacts, optimal damping conditions are achieved, so that even under the operating conditions mentioned at the beginning at the power limit, the power switch can be used up to the full power level.

The drawing shows a power switch circuit |

Power switch 1 works in conjunction with an adjusting transformer 2 having a winding of 3 coarse adjustment steps and a 4-step winding of the 1st adjustment step. The contacts of the power switch on one side are connected to the contact of the tap 5 of the winding 3, and on the other side of the contact of the tap off 6 of the winding 4. The main non-junction contacts 7 and 8, as well as the secondary auxiliary contacts 9 and 10 with their intermediate resistors 11 and 12 are connected to both extreme taps 5 and 6.

In the depicted state, the contact of the switch 3 is connected via the movable main contact 14 and the fixed main contact 7 to the tap-off 5 of the winding 3. The auxiliary movable contact 15, which is connected to the actuator 16 of the movable main contact 14, serves for short-time switching on of the auxiliary resistor

The process of switching from tap 5 to tap 6 is as follows. By means of the actuator 6, the movable main contact 14 is moved from its left position shown in the drawing, by which it is connected to the main non-pushing contact, to the right. At the same time, it reaches, having previously opened with the main contact 7, the auxiliary fixed contact 9, and intermediate resistor II is connected to the circuit. Subsequently, the auxiliary moving contact 15 is closed and a connection is made between the tap 5 of the winding 3 and the tap of the winding branch 6 through the auxiliary resistor 17 and the intermediate resistor II.

The auxiliary resistor 17, whose resistance is an order of magnitude larger than the value of the intermediate / exact resistors, protects against the fact that the subsequent opening of the contact 14 with the auxiliary contact 9 between the current turned off and the restored voltage does not cause a significant phase shift. Together with opening contact 9, contact 14 simultaneously forms a connection with auxiliary contact 10. After intermediate resistor 12 is switched on in circuit 13 with further movement of contact 14, auxiliary contact 15 is first disconnected, thereby disconnecting resistor 17 Then contact 14 reaches main contact 8 which is directly connected with the tap-off of the winding 6, and. opens with auxiliary contact 10, this is the end of the switching process.

Claims (2)

1. US patent number 3472981 for class 200-144 from 16.x. 1969 2.Tikhmenev B.N. and others. The rolling stock of electric railways Transport, 1969, p. 103, fig. 102