DE485607C - Automatic electrical regulator in the form of a multi-leg transformer - Google Patents

Description

Automatic electrical controller in the form of a multi-limb Transformatörs The invention relates to an automatic electrical controller that the shape of a multi-limbed. Transformer has. The primary windings of this Transformer are traversed by the operating current that is intended to be regulated is, while the secondary windings, which are divided and differential against each other are traversed by the control current.

The essence of the invention is that the supply of the secondary current not only through the inductive coupling with the primary circuit on the transformer takes place, but also through a parallel branch from this primary circuit a galvanic coupling of the secondary circuit takes place.

This arrangement ensures that the changes or Reversal of the controlled current much faster and more extensive, than was possible by means of the previously known devices.

According to a further invention, one leg of the is used as a regulator Transformer rotatably mounted so that it is under the influence of the magnetic Can rotate tensile forces and thus change the air gap widths. By this measure an even sharper onset of the control processes is achieved.

The drawing shows an example of an embodiment of the subject matter of the invention shown as used in conjunction with an electric flame arc furnace will. 7 'is a power transformer that provides power to the oven and regulator and which can be of any type. i is its primary winding and 2 is its Secondary winding. For the sake of simplicity, a single-phase transformer is shown, and it goes without saying that the invention applies equally to multiphase furnaces of the ordinary kind would be usable.

One side of the secondary winding 2 is through a line 3 with the Furnace sleeve, 4 connected. The electrode 5 of the furnace is, as usual, in a vertical position Movable direction and through lines 6 and 8 to the other side of the secondary winding 2 connected. The circuit 6, 8 contains a primary coil 7 of the controller, which will be described in more detail later.

The regulator consists of a transformer which is formed from a fixed core part 9 with two legs io and ii and a movable leg 12 which lies between the ends of the legs io and ii and is normally separated from them by the air gaps a and b . The movable leg 12 is rotatably mounted at 13 and separated from the cross piece of the fixed leg by an air gap c.

The primary coil 7 of the transformer is around the movable leg 12 wound and connected in series with the current to be regulated. It is clear that the magnetic flux generated in the leg 12 by the coil 7 is two closed Forms circles, namely the one across the air gap a and the Leg i o and the other through the I_tiftspalt b and the leg i r, where the leg 12 belongs to both circles.

The leg io is made considerably smaller in cross section than that Leg i i, and the cross-section of the movable leg 12 is approximately the same greater than the sum of the cross-sections of the legs io and ix. When the river turns into of the coil 7 developed under the action of the current, a uniform occurs at first Division on the two circles that go through the legs io and ii. if but if the current continues to rise and the flow increases accordingly, the thigh becomes io is soon saturated, and the leg i i then receives a larger proportion of the Flow.

The movable member 12 is in the position between the two legs by sets of support springs rq. and 15 held that attached on both sides are. For example, each set consists of three springs of different lengths, see above that during the movement of the leg i2 these springs are touched one after the other. This results in the movement of the leg 12 against the leg io or ii a resistance that grows in the same measure as the movable limb adapts to it fixed leg approaches, so that z. B. the moving one with each increase in flow Leg 12 closer to the fixed leg i i moves closer and in this position remains because the magnetic pull is balanced by the resistance of the springs. In other words, since the magnetic pull between the two legs is reversed as the square of the distance changes, it is clear. that a simple pen die Contact between the movable leg 12 with the ends of the fixed legs could not prevent as soon as the flow in the two legs were different, and it is therefore necessary to use a composite spring type of the Specified type to choose so that the movable leg 12 is the fixed leg ends gradually and in progressive stages. Instead of a compound A spring, which consists of a series of individual springs, could also be a simple one accordingly built spring kick. The only decisive factor is the property that the resistance created by the spring increases somewhat more than the movement of the leg 12 corresponds.

A is the anchor or the rotating part and F the field or the immovable Part of a small electric motor, whose shaft in the present case with the usual, Not shown winch is connected and the electrode 5 raises and lowers. One uses similar to a commutator motor, although other types could be used. The field F, which is designed as a shunt winding, is excited separately and is with one end directly to one side of the power transformer T through the Lines 16 and 22 connected, while the other side of the field winding by one Resistor R 'with a line 21, which is connected to one side of the transformer winding 2 connected furnace line 3 is connected. In this way it becomes Field F is constantly excited by the power transformer T, which is considered to be practically constant AC power source can be viewed. The purpose of the resistor R 'is to provide a To prevent too great a lag of the field current, which would occur if the the entire impedance of the field current would consist only of the reactance of the field coil. In other words, it is desirable that the current to be regulated in the circuit, namely in coil 7 of the regulator transformer, practically in phase with the current of the field coil F is.

On the two legs io and ii of the transformer core 9 are secondary coils 17 and i9 wound that have approximately the same number of turns, but in the opposite sense, included. The equivalent ends of the coils are connected by a line 18. The other end of the spool 17 is over a Resistor R and a line 16 to one end of the power transformer winding 2 connected and the other end of the coil i9 through a line 2o with a Side of the armature A connected, the other side of which is connected to the line 2i. So it is the two coils 17 and i9 with each other and with the armature A of the motor connected in series, and all these parts are in a circuit on the winding 2 of the power transformer and in series with the resistor R.

The windings 17 and i9 are arranged so that the in the same sense through the two legs ro and ii running flux voltages in the coils in such a direction that they act against each other when the connection in series, as happened, took place. If then the flow in the two legs io and ii are the same, the voltage generated in coils 17 and i 9 is zero.

The power transformer 1 'has the tendency to constantly drive a current through the circuit 16, R, 17, 18, 19, 2o and the armature A of the motor and this as long as the voltages in the coils 17 and i9 equalize each other . In this circuit, current flows constantly, and since this is in phase 4 with the current in field F due to the effect of the resistor R ', the motor armature A does. The same result occurs, of course, when the circuit 6 is open and there is no voltage in the coils 17 and ig. It is believed that this is the case and that the direction of rotation of the motor under these circumstances would cause you to lower the electrode 5 in the furnace. As soon as the electrode comes into contact with the charge, a sudden current surge occurs in circuit 6 and coil 7 and accordingly a strong flow in leg 12. This flow divides through the two legs io and ii, with leg io saturated almost immediately if un-l the flow in leg ii will continue to rise. This creates a high voltage in coil ig, which not only outweighs the voltage in 17, but, since it is also 180 ° out of phase with the voltage in winding 2 of the power transformer, the voltage of this transformer overcomes and a current flows through the Circle 16, R, 17, 18, 1g and 2o and drives the motor armature in a direction opposite to that previously described. By reversal it is of course understood that this current is out of phase with the first current by i 800 and accordingly has the effect of reversing the direction of rotation of the motor armature A. This armature then revolves in such a way that the electrode.5 is lifted from the feed and an arc is drawn. This sudden reversal of the motor is supported in the case described by the fact that the contact of the electrode 5 with the charge momentarily short-circuits the power transformer T and lowers its voltage so that the voltage in the coil ig can easily overcome it.

When the electrode is raised and the bow is drawn out, he takes through the circuit 6 and the coil 7 from current flowing, and the flow through the Leg 12 gets smaller and smaller until it reaches a point where those in the coils 17 and ig resulting voltages just equalize the voltage on the armature circuit is transmitted through the power transformer T. When this happens, it goes down The current flowing in this circuit is reduced to zero and the armature stops. Would now the power input to the furnace will fall below a prescribed point, then would be the voltage imposed on the armature circuit by the power transformer again outweigh the tension produced by the coils 17 and ig and set the motor in motion again in such a direction that the electrode would be lowered. This lowering would continue until the flow increased through the Leg 12 in the coils 17 and i g again produces such a strong tension that that it would balance the voltage through the power transformer.

It can be seen that the engine is in one way or the other, as required Direction revolves or can stand still, and that its behavior depends entirely on the circumstances depends in the circuit to be controlled, with the desired success being achieved without that any contacting facilities come into operation.

The predominant effect of the coil ig is due to the movement of the Leg 12 against the leg i i increased, since thereby the flow over a predetermined Value grows. This movement has the effect of reducing the air gap b and an enlargement of the air gap a, whereby a greater difference of the caused by both rivers, in other words, means are provided in order to cause a greater change in voltage in the coil ig than it does the corresponding current fluctuations of the coil 7 would correspond, whereby the current fluctuations and thus the sensitivity of the apparatus can be increased.

It goes without saying that appropriate means must be provided for the Adjust the size of the air gaps a, b, c and also means for regulating the resistance of springs 1q. and 15, so that the motor armature at any current strength in the circle 6 can stop.

In some cases, satisfactory results are obtained using the coils 7 and ig alone, without the coil 17 and the leg i o. In these cases, the voltage of the coil ig is balanced by the voltage that is impressed on the armature circuit by the power transformer.

It is clear that the size of the excess voltage in the armature circuit depends on the size of the change in load (below or above normal) and that the speed of rotation and the pulling force of the motor of the size of the effective transmission are proportional. In other words, the force that the burden tends to return to their normal height is greater or less, as the case may be the deviation from the normal load is larger or smaller.

The invention is of course not limited to that shown electric oven can be used, but also for many other purposes. For example the apparatus is used in place of the primary coil 7 when a voltage coil is used to regulate the voltage of any power source, or by Connection of the motor with a water gunner can the speed and voltage of a hydroelectric machine can be regulated. Other uses of the invention arise by themselves.

Instead of the embodiment shown, according to which the armature of the motor represents the reversible element, a different one can of course also be selected in which the current flows constantly through the armature and the field excitation through the controller is switched.

Claims (3)

PATENT CLAIMS: i. Automatic electrical regulator in the form of a multi-limbed transformer whose primary windings depend on the operating current to be regulated and its arranged in a differential circuit and on legs of different saturation Secondary windings are traversed by the controlling current, characterized in that that the secondary circuit and the primary circuit are inductively coupled as well as to each other are connected in parallel. 2. Regulator according to claim i, characterized in that the secondary circuit from the terminals of the secondary winding of a power transformer (T) is removed, which also supplies the operating current. 3. Regulator according to claim i and 2 in the form of a three-legged transformer provided with air gaps (a, b) , characterized in that the middle leg (i2) carrying the primary winding is arranged rotatably about its base point (13) that with changes in the magnetic flux in the outer legs, the air gaps are changed. q .. Regulator according to Claims 1 to 3, characterized in that the movement of the central leg (12) is delayed by brake springs (14 and 15) arranged in steps, the resistance of which increases in approximately the same proportion as the magnetic tensile force exerted on the central leg.