DE914409C - Step control device - Google Patents

Description

In the '757,165 patent there is a step controller described for transformers, chokes, capacitors or for ohmic resistances, in which the contacts switching under load jump from one switch position to the other to be brought. The contacts are here depending on the instantaneous values of the Switching current or switching voltage and depending on the position of the switch drive by at least one synchronous motor, ζ. Β. Impulse field motor, separated, which separates the contacts always effected shortly before the current zero crossing. The synchronous motor is started by the drive of the step control device set and only switched on shortly before the switching process.

In the embodiment of this patent are two synchronous motors, one for step-up, one used for downward regulation, which is mechanically triggered by the drive shaft of the current switch will. This mechanical start-up requires a special gear; also exists There is a risk that, particularly in the case of control devices for lower frequencies, for example for railway frequency, the motor does not certainly reach synchronous speed, or if it does

has achieved that it falls out of step under mechanical stress, i.e. at the moment of the decisive switching process. The load current is then no longer interrupted shortly before or when the current crosses zero, but later, that is, at a moment when it is already of considerable magnitude, with the result that the contacts are heavily stressed.
The invention avoids such difficulties.

ίο According to the invention, the synchronous motor is with a DC motor coupled, which starts the synchronous motor, supports during the run and afterwards decelerates the shutdown as a result of short-circuiting its armature. The torque of the DC motor can be increased so much that this relieves the synchronous motor almost completely, so that the latter only acts as a clock. Depending on the torque of the DC motor And the rotor of the motor rushes the stator rotating field by larger or smaller than the load torque Angle before or after. This must be taken into account when setting the switching device will.

As a synchronous motor, it is best to use a single-phase motor (pulse field motor), as it follows can run in both directions of rotation. Depending on the switching direction, the DC motor is then switched on Forward or reverse controlled. The DC motor is best used as a shunt motor Compound winding carried out so that it does not immediately increase in speed under sudden loads subsides and the synchronous motor falls out of step. After the snap switch has been triggered are both motors by short-circuiting the DC motor armature with or decelerated quickly without the aid of a resistance. The two motors become mechanical coupled with each other and during the time of the snap action with the snap action switch drive, however, they can also only be connected to a trip device for this switch will. The motors are controlled, for example, by the drive of the snap switch, by placing contact segments, switching cams or the like on a drive shaft for the control the motor circuits or their contactors.

The invention offers the advantage that even at low frequencies, especially at web frequency, correctly synchronized shortly before or at the current zero crossing.

Claims (1)

Claim: Step control device for transformers, chokes, capacitors or ohmic resistors, in which the contacts switching under load depending on the instantaneous values of the switching current or the switching voltage and depending on the position of the switch drive under the influence of at least one synchronous motor, e.g. B. pulse field motor, be separated shortly before or at the current zero crossing, according to patent 757 ^IO S> characterized in that a DC motor is coupled to the synchronous motor, which starts the synchronous motor, supports it during the run and brakes after completion of the trip due to the short circuit of its armature. © 9524 6.54