DE286613C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

is removed.

There are devices of step transformers are known in which the working current is taken from the transformer in several parallel switches. In these arrangements are in the parallel Branches of inductors switched on, in which each subsequent with taps or connected to the endpoints of the previous one and the working circuit is on

ίο the tapping point of the last choke coil in the row of choke coils is connected. The voltage is changed in such a way that the outermost branch on one side is opened and switched to a tap on the other side. The subject of the invention is a new arrangement of this type. An exemplary embodiment is shown in the drawing.
Here, t means the transformer with the taps a, b, c, d, e, f. In the parallel branches there are now choke coils S ₁ , s ₂ , of which the first leads directly to the taps of the transformer via switches, while the second Choke coil lies with one end at a tap point g of the first choke coil, while the other end also leads to a tap point of the transformer via a switch. The choke coil s ₂ is also provided with a tapping point h , to which the motor m is connected in the exemplary embodiment illustrated in the drawing. In the present example, the number of parallel current branches is selected to be 3. The number of choke coils required is 2. If you want to increase the number of parallel branches, a further choke coil is placed at the tap point h of the choke coil s ₂ , the other end of which leads to a tap of the transformer. The motor is then located at a tapping point of this choke coil. While one end of each choke coil is always permanently connected to a tap point of the preceding choke coil, according to the present invention the other end of each choke coil is led directly to taps of the transformer without a direct connection to the previous choke coil.

In order to ensure an even current distribution on the parallel taps of the Transformer to achieve simultaneously connected branches are the tapping points arranged so that the number of turns of the first choke coil in a ratio of 1: 1, the second in the ratio 1: 2, the third like ι: 3 etc. is divided.

The fact that with this arrangement of the tapping points the desired current distribution occurs in the parallel current branches is demonstrated below for the arrangements with two choke coils. If / is the working current flowing to the motor, this current is distributed in the choke coil s ₂ in the

reversed ratio of the number of turns of both branches. In the second current branches h, so the current flows k ¹ Y ₃ Y, while h in the current branches, the current I _^2/3 / flows. In the coil S, since the number of turns of both current branches is equal to _1, the current _^2/3 distributed / ¹ to Depending Z ₃ J to both current branches. Equal currents flow through switches a, b, c

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While the working currents of the motor m are evenly distributed over the parallel current branches, this is not the case with regard to the magnetizing currents. Let I _{1 be} the magnetization _{current of the winding coils S 1 which} , for example, flows through the coil S ₁ in the direction from the tap point α to a tap point b. Is the number of turns of the coil s ₂ , as shown in the drawing

ao is half greater than the number of turns in coil S ₁ , and if the flow of force in both coils is of the same magnitude, then in the illustrated position of the switch, magnetizing current i ₂ of coil S _{2 is} also of magnitude i _v While the current i _{2 flows} in full size through the current branch c, the currents 1J2 flow in the same direction through the current branches α and b. Thus, through the switch α flows as a magnetizing current i _x + ¹ Z ₂ i ₂ = _^3/2 1 _1, through the current path of the magnetizing current b ¹ Z ₂ i ₂ - 1 ₁ - - ¹ Z ₂ i _lt through the switch c, the magnetizing current - i ₂ . However, this unequal load on the switches can generally be neglected, since the magnetizing currents of the choke coils are only small compared to the working currents in question.

In order to regulate the voltage supplied to the motor, the switch α is opened and the switch i closed, then b opened, e closed, c opened, f closed, etc. in a continuous sequence first switching stage (switch a, b, c closed) the motor is supplied with a voltage which corresponds to point b . The tapping point g in the middle of the choke coil S ₁ divides the voltage between a, b in half. Since the end point of the choke coils s ₂ lies at the tapping point c of the transformer and this choke coil is divided by the tapping point h in a ratio of 1: 2, the voltage at the tapping point h corresponds to the voltage of the tapping b of the transformer.

If the switches b, c, d are now closed in the second switching stage, the choke coil S ₁ lies between the tapping points b and d of the transformer, its tapping point ξ, which is in its center, receives a voltage corresponding to the tapping point c of the transformer . The voltage between points I and k of the second choke coil is therefore zero, the voltage from tapping point c is thus fed to the motor. With this control method, the coil S ₁ alternately receives the voltage of one voltage stage of the transformer and that of two stages. This is unobjectionable, since this fact can easily be taken into account when _{dimensioning the coil S 1.}

The new switching arrangement has the advantage that you have a small number of inductors and parallel switches already regulate in even steps and achieved with an even load in parallel branches.

Claims (2)

Patent Claims: 1. Switching device for regulating the voltage of step transformers, at which the current is taken from the transformer through several parallel branches, one of which is used to change the Voltage always the outermost branch open on one side, and on a tap the other side is turned over, and in which inductor coils are arranged in the parallel current branches, wherein the working circuit is connected to a tap of the last choke coil in the series of choke coils, while at the same time, one end of each choke coil is permanently connected to a tapping point of the preceding choke coil is characterized in that the other end of each reactor has no direct connection with the previous one Choke coil is led directly to tapping points of the transformer. . 2. Switching arrangement according to claim .1 with at least two consecutive Choke coils, characterized in that the successive ones in the switching arrangement Reactors in sequence from the transformer through their Tapping point in the ratio 1: 1, 1: 2, 1: 3 etc. are divided. 1 sheet of drawings.