DE756088C - Equipment for parallel connection of systems to be synchronized - Google Patents

Description

Device for parallel connection of systems to be synchronized Es is already a device for connecting systems to be synchronized in parallel has been proposed in which the parallel switching command for the coupling switch in Given as a function of the slip frequency and the slip voltage to a display element is supplied via storage circuits, which only the current effective in the display device then let it come to the response value when the slip frequency is sufficiently small is. The invention relates to an improvement of this device with the aim that the torque of the display device is more pronounced than before with the beat frequency changes.

According to the invention, the display element is the sum of the rectified Slip voltage and a voltage proportional to its change over time and when a minimum value of this sum is reached, the parallel switching command is given.

The invention is illustrated in the drawing, for example.

In the circuit arrangement according to Fig. R, the display device v two Currents supplied, from -because one of the slip tension, the other on the other hand, their change over time is proportional. The parallel switching command is z. B. via a relay, issued when the sum of the two currents is zero or almost zero .ist and the display device v returns to its rest position.

The coil v1 of the display element is parallel to a capacitance cl connected to a rectifier arrangement ä1, which is from the slip voltage between the systems to be coupled is excited. A series resistor r1 is used to reduce it the voltage at the rectifier, a parallel resistor r2 for the secondary bias of the rectifier with the purpose of its sensitivity to small loads to increase. A resistor r3 does the job of discharging the capacitor via the rectifier g1 or the resistor r. to avoid and so the discharge to force v via the display organ. A resistor connected upstream of this display element The task of r4 is to limit or reduce the current in the voltage circuit accordingly. the entire display arrangement to the one required for the capacitor connected in parallel To increase resistance value. An electrolytic capacitor is expediently used as the capacitor use as rectifier dry rectifier.

The current corresponding to the change in the slip voltage over time comes about as the charging current of a capacitor c2, which is fed through a rectifier g3 rectified and fed to a second coil v2 of the instrument v. A resistor rs fulfills the same task as the resistor r2 in the rectifier g i.

As a result of the inertia with which the instrument v changes the Beat voltage follows, there is a risk that the pointer at that moment in which it is almost in the zero position and a sudden increase the voltage occurs, this voltage change does not follow, but rather a contact causes, especially when a certain kinetic energy is stored in the system is. In order to avoid this with certainty, one can in series with the capacitor c1 connect a resistor to which a dry rectifier is placed in parallel. The forward direction of this rectifier is chosen so that the capacitor is Charge slowly via the resistor, but quickly via the dry rectifier can discharge. In the event of a rapid increase in tension, the organ then behaves. v almost as if the capacitor weren't there at all. When sinking on the other hand, the voltage is affected by the action of the capacitor through the resistor cl is not influenced, so that the damping comes into its own.

The effect of the two currents supplied to the instrument v on the Torque of the pointer is shown in Figure 2. With ml is the time course of the torque resulting from the slip voltage, with ssz, that of its acceleration designated corresponding torque. ml has its maximum when m2 is zero, and vice versa. The sum of both torques .is the torque ms, which is pronounced changes with the beat frequency.

The maximum value of sni is independent of the frequency of the slip voltage, while the maximum value of m2 is almost proportional to the slip frequency. At a With a very low slip frequency, curve v2 therefore runs very flat, so that the shape of the curve approaches that of m1 more and more, the further the slip frequency decreases. If this approximation is sufficiently advanced, the voltmeter switches the machines together as soon as m2 has reached its lowest point.

In all the exemplary embodiments, it is advisable to use the voltmeter or relay v in a known manner with an adjustable stop for the Indicator or the relay armature, so that this is normally only can remove little from its zero position. This creates an accumulation of kinetic Energy that could cause unintentional switching is largely excluded.

Claims (1)

PATENT CLAIMS: e.g. Device for parallel connection to be synchronized Systems in which the parallel switching command depends on the slip frequency given and the slip voltage is fed to a display unit via storage circuits will only reduce the current effective in the display element to a minimum value come, let, - if the slip frequency is sufficiently small, characterized by that the display element is the sum of the rectified slip voltage and one voltage proportional to their change with time is supplied and that when it is reached a minimum value of this sum the parallel switching command takes place. z. Facility according to claim i, characterized in that a capacitor (c1) in the storage circuit a resistor (r5) with equals lying in parallel judge (g2) so is connected upstream so that the capacitor charges slowly through the resistor, on the other hand, discharges quickly via the rectifier and the display element. 3. Establishment according to claim i or 2, characterized in that the display member is one per se known adjustable stop has only a small deflection when exceeded of the minimum value. To distinguish the subject matter of the invention from the state of Technik, the following publications are considered in the granting procedure been: German Patent Nos. 293,3o6, 457369, 513o4o, 694874.