DE314316C - - Google Patents

Description

ISSUED ON SEPTEMBER 10, 1919

CLASS 21 d GROUP

As is well known, good parallel operation of two rectifiers can be achieved by connecting a choke coil to each of the anode supply lines. Circuits are already known to combine the necessary reactances in a single multi-phase inductor, even with multi-phase rectifiers. For example, an inductor with three-sow ^v

ίο len and one or two spools on each Column for the parallel connection of three-phase or six-phase rectifiers Find.

The so far known switch sizes for multi-phase reactors require one due to the successive anode currents caused periodic and complete magnetization of its iron core.

However, this is associated with a reduction in the power factor in the AC network, an unnecessarily large iron loss in the choke coil and a relatively high voltage drop on the DC side.

The new circuit of the choke coil avoids these shortcomings and also offers structural advantages. After that, all of the sub-coils connected to the anode leads are ' the different phases arranged on an iron core with only two columns, and connected in such a way that they only touch the iron core in one and the same direction magaetize,. thus all act on the same magnetic circuit.

According to FIG. 1, the inductor d, which is suitable for a six-phase rectifier and constructed according to the invention, is shown. It has six individual coils ^ ₁ to s _{e of} different phases on two iron columns, which are connected to the terminals p _± to p _{0 of} the power source t on the one hand and to the anodes O ₁ to a _{a of} the rectifier * g on the other hand. The current direction arrows shown show that the neuq inductor circuit prevents the iron core from being magnetized. The successively effective coils ^ ₁ to ^ ₀ generate a constantly rectified power flow that increases with the load on the rectifier. The small fluctuations in the field intensity in the iron core of the choke coil d associated with the scatter and the waviness of the rectified current cause, despite the three times the frequency, lower iron losses than with a complete reversal of magnetization according to the previous circuit; A reduced total voltage drop and an increased power factor are also consequences of the novel design of the choke coil, quite apart from the fact that a two-column coil is simpler than one with three columns.

One completes. 2 the anode coils S ₁ to s _e through additional coils s' and s " ■ and conducts the direct current drawn from the cathode k of the rectifier through the same, so the voltage drop caused by the choke coils can be further reduced in the area of full load will. To the. 3, in which the curve / the course of the iron saturation B as a function of the

Magnetizing field strength H represents. Point c corresponds to the knee of the saturation

By a suitable choice ^{1 of} the size ratios and the number of turns it can be achieved that the core saturation of the choke coil d at a certain rectifier load, for example at half load, corresponds to point c

ίο the voltage absorbed by the choke coil no longer experiences a further substantial increase. The dependency of the direct voltage " e supplied by the rectifier" on the load current i is shown schematically in FIG. 4, specifically the line e ' corresponds to the circuit according to FIGS. 1 and e ". those according to Fig. 2.

Incidentally, a reduction in the voltage drop under load can also be achieved with the circuit according to FIG. 1 if the structural conditions of the choke coil d result in a strong saturation of the iron core even when the rectifier is partially loaded. Furthermore, in the circuit according to FIG. 2, instead of the full rectified current, only a partial current can be passed through the coils s' and s "by placing an ohmic or inductive resistance in parallel with these coils. in this way the influence of the additional coils s' and s " on the voltage drop can be regulated within certain limits. Finally, the connection of the additional coils ^ ₁ and s _G to the cathode Ie can be omitted entirely and in its place the voltage induced in these can be deduced from a resistance of the appropriate size. In all cases mentioned here, the effect in s' and ^s'r flowing current in a favorable sense on the voltage drop of the rectifier, without affecting the original purpose, ie the parallel operation of several rectifiers.

Claims (5)

Godfather t-An sayings: 1. Multi-phase choke coil for mercury vapor rectifier, characterized in that the partial coils ^{1 of} the different phases connected to the anode leads are all arranged on an iron core with only two columns, so that they all act on the same magnetic circuit in such a way that the sub-coils cause rectified magnetization in the iron core. 2. choke coil according to claim 1, characterized in that the saturation state in the iron core (knee of the magnetization curve) already with a partial load of the rectifier occurs. 3.. Choke coil according to claim 2, characterized in that the saturation of the iron core is caused by additional coils (s' · and s ") influenced by the rectifier current. 4. choke coil according to claim 3, characterized by a fixed or adjustable shunt resistance parallel to the additional coils. 5. choke coil according to claim 1 with additional coils, characterized in that the alternating voltage induced in these on an independent of the rectifier current, fixed or adjustable resistance works. 1 sheet of drawings.