SU150905A1 - Device for protection against reverse ignition valves - Google Patents

Description

The proposed device for protection against the reverse ignitions of valves of a full-wave zero-output rectifier unit refers to the well-known device of the same purpose, in which the windings of two current transformers with the same transformation ratios are connected to the anode circuits of the rectifying circuit.

A feature of the device constituting the subject matter is that the secondary windings of said transformers, in order to increase the reliability and speed of protection, are connected back-to-back and an electromagnet coil of the switch is connected to them.

The drawing shows the principle electrical cxeivia of the proposed device as applied to the rectifier assembly of a single-phase electric locomotive.

The structure of this device includes two single-turn current transformers / and 2 with the same nominal transformation ratios and a potential tripping electromagnet 3 of the main switch 4. The current transformers / and 2 are included in the dissecting of the anode circuits of the rectifying circuit in a strictly defined direction: ends / 7i primary The windings of both current transformers are connected to the end leads of the secondary draft winding of the transformer 5 that feeds the engine 6 of the electric locomotive, the ends L to the anode shells of the rectifying groups 7 and 8. Vtori The coils of both current transformers are connected to each other in a counter-series manner and a disconnecting magnet coil 3 is connected to them.

jYo 150905-2 in normal operation, the rectifying groups 7 and 8 pass a current oonepeiiieHHO depending on the polarity of the voltage on the phase terminals of the transformer 5 winding relative to the midpoint. Consequently, in each half period, the primary winding of only one of the current transformers 1 or 2 flows around the current. Thus, in each half cycle, one of the current transformers is a current source in the secondary circuit, and the other is an additional secondary load, which significantly reduces the amount of current in the secondary circuit. As a result of the operation of the rectifier of the m-cell aggregate, the current in the coil circuit of the tripping electromagnet 3 is small and does not reach the magnitude of the current response of the electromagnet. The cores of the current transformers receive a constant bias, corresponding to the normal direction of the anode currents of the rectifying groups.

During reverse ignition, for example, in the extraction group 7, the winding of the transformer 5 is closed short-circuited at that time, the rectifiers of group 8 and the damaged rectifiers of group 7. Thus, in this case, the current passes simultaneously through the primary windings of both current transformers , and on the primary winding of the current transformer 1 in the opposite direction to the normal. Since, at the same time, the scarvy windings of both current transformers are connected in series, then, as can be seen from the drawing, the emf induced in the secondary windings of these current transformers add up, i.e. the secondary windings are connected in series and the current into secondary circuit increases dramatically. An increase in the current is also facilitated by the re-magnetization of the current transformer core. This increase in secondary current provides a quick triggering of the operating disconnecting electromagnet 3 and switching off the switch. The absence of intermediate relays provides a very short switch off time.

Subject invention

A device for protection against reverse ignitions of a zero-output full-wave rectifier unit, containing two current transformers with the same transformation ratios, the primary windings of which are included in the anode circuits of the welding circuit, in order to increase the reliability and speed of protection, the secondary transformers . The current level is connected in a counter-series manner and the switch of the electromagnet of the switch is connected to them.