JPS6235421A - Dc breaker circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a DC breaker circuit, in which the current flowing through the breaker is zero.

It relates to a DC breaker circuit that is designed to last for a predetermined period of time.

[Conventional technology]

Figure 3 is 0, for example, Tokko Shogu l-/2! It is a schematic configuration diagram of a conventional DC breaker circuit shown in Publication No. 33. In this Figure 3, (1) is a DC power supply, and a series circuit of a load (K) and a breaker (3) is a DC power supply (1).
1) is connected in parallel with switch (4'l,
A series circuit of an inductor (3) and a capacitor power supply (A) is placed in parallel with the breaker (, ?+).

Further, Fig. q shows a waveform diagram of the current flowing through the breaker (3) when a cutoff operation is performed in the conventional example shown in Fig. g3.

The following will be explained while referring to FIGS. 3 and 1.

The operation will be explained. Assume that the circuit breaker (3) is opened at one point in time (t,), and at the same time the switch group (3) is closed. At this time, depending on the polarity of the capacitor power supply (AI), the current flowing through the breaker (3) is zero at the time (ta) when the polarity is monthly, and at the time (t,') when the polarity is monthly. Then, the intended cutoff will be performed accordingly.If the cutoff at this time (ta) or (i, y)ic ends in failure.

In the next cycle, when the current flowing through the breaker (, ?> becomes zero, the intended breaker is repeated. Note that the inductor (j) is cut off! (, 71
This is to adjust the time constant that defines the time from when the valve opens until the current flowing through it becomes zero.

[Problem that the invention seeks to solve]

Since the conventional DC breaker circuit is constructed as described above, arc plasma may be generated between the electrodes of the breaker between the time the breaker is opened and the time the breaker is disconnected. This arc plasma damages the electrodes of the breaker, shortening its lifespan. Furthermore, due to the presence of the arc plasma, the current flowing through the breaker may become zero.

At the next moment, the current tends to flow in the opposite direction to the previous one, causing problems such as the possibility of failure in shutoff. This invention is aimed at solving the above-mentioned problems. The current flowing through the circuit breaker is designed to prevent the generation of arc plasma between the circuit breaker's electrodes, extend its usable period, and ensure that the circuit breaker is shut off in a short period of time. An object of the present invention is to obtain a DC cutoff circuit that can maintain a state in which the voltage is zero for a predetermined period of time.

[Means for solving problems]

The DC breaker circuit according to the present invention includes a series circuit of a breaker and a diode between a DC power source and a load,
A series circuit including a power source different from the DC power source and a switch is provided in parallel with the series circuit.

[For production]

According to this invention, when the switch is closed, the current flowing through the breaker is brought to zero by the current flowing from the different power source, and this state of zero current is maintained for a certain predetermined period of time.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure is a schematic configuration diagram of the above embodiment.

Moreover, FIG. 1 is a waveform diagram of the breaker current in the above embodiment.

First, in Fig. 1, (ri) is a DC power supply.

It is connected to the load coil (/S) via a first switch (t), for example an ignitron switch, and a series circuit of an interrupter (de) and a diode (10). In addition, a capacitor power supply (/
A power supply different from the DC power supply (7) such as C), a series circuit consisting of an inductor C/3) and a third switch (/S), and a commutation resistor (//) are connected in parallel. There is. And the crowbar diode (lA)
A voltmeter (/?l) is connected between the connection point of the switch (1) and the breaker (ri) and one end of the DC power supply (7), and is further provided with a voltmeter (/?l) in parallel with the breaker (9). It is being

Next, the operation of the above embodiment shown in FIG. 1 will be described with reference to FIG. 1 as well. First, close the first switch (f), connect the DC power source to the t-load coil, and energize it to excite it.

The current flowing through this load coil (/3) is a certain constant value (
When the voltage of the DC power supply (7) is lowered after reaching step i), a constant current flows within the time constant set for the energized circuit due to the action of the crowbar diode (/6). At the same time, the DC power supply (7) is connected to the load coil (
15).

Next, at time (t3), the circuit breaker (9) is not opened.

At the same time, the third coswitch (/l) is closed.

Generally speaking, jitter often occurs when a breaker (TE) opens, and in practical operation, it is necessary to calculate the voltage rise across the breaker (?) when it opens. It is detected by the voltmeter (/7), and the No. 1 co-switch (C0) is closed accordingly. By closing the No. 1 co-switch (lU) in this way, the capacitor power supply (/co. ) flows transiently in the opposite direction, and as a result, the current flowing through the breaker (Te) rapidly attenuates and becomes zero at one point in time ('Ieg). Point rtJ)
In the time period from to time (tq'J), arc plasma is generated between the electrodes of the breaker (Te).
Until a certain predetermined time point (1,) after o), the current flowing through the breaker (9) is made zero by the action of the diode (/Q). And from this point rt, ) to the point (
During the time period tj)1, the arc plasma generated between the electrodes of the breaker (wa) is sufficiently attenuated and finally disappears. (after t, the capacitor power supply (l)
The current from the breaker (9) tries to flow to the breaker (9), but at this time, it cannot flow because the breaker (9) has already been opened, and the intended breaker is performed and the load coil The current flowing through (/S) flows through the commutation resistance (//) ft, and is attenuated by this.

Note that when the diode (/θ) is removed from the above embodiment and the cutoff fails, a current as shown by the dotted line in FIG. 2 will flow.

Although the above embodiment has been described with respect to the case where a voltmeter is provided in parallel with the breaker, this voltmeter may be omitted as long as the jitter generated by the breaker is minute. Further, if the load is not a coil but a resistance, it is not necessary to provide a commutation resistance. Furthermore, the inductor connected in series with the capacitor power supply may be removed depending on the rating of the diode connected in series with the breaker.

〔Effect of the invention〕

As explained above, in the DC breaker circuit according to the present invention, a series circuit including a breaker and a diode is provided between a DC power source and a load, and a power source different from the DC power source is connected in parallel to the series circuit. Since the configuration is such that a series circuit is provided between the switch and the switch, when the switch is closed, the current flowing from the separate power supply makes the current flowing through the breaker zero, and this current becomes zero. Since this state is maintained for a predetermined period, arc plasma is not generated between the electrodes of the breaker due to the interruption during this period, and the usable period is long. This can be done reliably within a short period of time, and large currents can be interrupted with a small capacity breaker.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram of a DC breaker circuit according to an embodiment of the present invention, and the Kλ diagram is a waveform diagram of the breaker current of the above embodiment. ,? The figure is a schematic diagram of a conventional DC breaker circuit of this type, and FIG. 9 is a waveform diagram of the breaker current in the conventional example. (ri) is a DC power supply, (fl is a / switch, (de JF
It is a disconnector, (10) is a diode, and (l/) is a commutation resistor. (/ko) is a capacitor power supply (separate power supply), (is) is an inductor, (ha0 is the first switch, (is) is a load coil, (/b) is a crowbar diode, (/ri) is a voltmeter 7: Direct source 8: 21 strike 1st 9: (Condolence) ticket 10: 9″ Iode 11: kTL...Resistance 12: ) - Tennibu Denryo (Betsugumo Denryo) 13 - Etactor 14: Oki 2sui, +- 15: 1 balance fill 16: diode 17 at ri D-1: the needle 2 figure b: Ltl# atmosphere (9) I'li+=Zsu, fang 2
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Claims (1)

[Scope of claims] In a DC breaker circuit that interrupts DC by a breaker provided between a DC power source and a load, a diode is provided in series with the breaker, and a series circuit of the breaker and the diode is provided. A series circuit including a power source different from the DC power source and a switch is provided in parallel with the DC power source.
When the switch is closed, the current flowing through the breaker is reduced to zero by a current flowing from the different power supply, and this state of zero current is maintained for a predetermined period of time.