DE405862C - Process for tempering single armature transformers that are tempered with reduced voltage - Google Patents

Description

Procedure for tempering. Single armature converters with reduced Voltage can be left on. When starting single-armature converters from the AC side As is well known, a violent brush fire occurs on the commutator, which both the Brushes and commutator grinding surfaces damaged. This brush fire is in the tempering process according to the main patent 405o56 counteracted in that the Anchor of the converter, after it has been briefly applied to a Voltage is triggered with a lower partial voltage than it is for the trigger is necessary for an unloaded start-up, which is fed to synchronous operation.

With this one. However, the tempering process still has the disadvantage that the power-supplying, remote control center is under unfavorable stress due to the predominantly wattless power This is avoided according to the invention in that the converter from the direct current side is triggered off.

In the drawing, the invention is shown using an exemplary embodiment. The anchor of the converter is denoted by m. The commutator k of this armature is via a resistor w, which can be regulated. connected to the direct current network, while the slip rings are connected to the three-phase network d via the transformer t. For starting. of the motor, the switch f on the alternating current side remains open, the switches g and k on the direct current side are closed, while the switch q, which is parallel to the resistor w, remains open. In this circuit, the armature m is hit by direct currents and accelerates. Then the DC side is switched off by turning off the switch la z. B. opened and the switch f of the. Switch-off contacts a placed on contact b, as a result of which the armature is fed with the low AC voltage corresponding to the tapping point n and is thereby further accelerated. This partial voltage is lower than it would be necessary to initiate an unloaded start-up. Once the converter has achieved synchronism, the switch f is placed on contact c, from which the armature then feeds the full alternating current voltage to the secondary winding s of the transformer t.

It is not necessary to connect the converter from the DC side close to the synchronism, which is easily achieved by shunt control Rather, the small alternating current partial voltage can already be at low speed are fed. Before turning on the AC side it is also advisable to weaken the converter excitation.

The correct polarity is established in the usual way, switching to full voltage is also carried out in a known manner.

The starting resistor w can also be used during operation by placing it in parallel with the maximum switch for the direct current side, as has already been indicated in the drawing. Iri this q is intended as a maximum off switch, la represents an auxiliary switch that is triggered after this depending on ° q, so that when q is switched off, the resistance w initially still offers a path for the strong current to flow, which creates the dreaded overvoltage that can occur when the circuit is suddenly opened is avoided.

Claims (1)

PATENT APPROACHES: i. Method for starting single-armature converters, which are started with reduced voltage, characterized in that the converter, which according to main patent q.0505 & with a lower alternating current secondary voltage than would be necessary for the initiation with unloaded start-up from the alternating current side, is conducted into the synchronism of the DC side off is triggered. a. Method according to Claim z, characterized in that the starting resistor used when bumping on the direct current side is used as a protective resistor for operation.