DE430975C - Electric conveyor system - Google Patents

Description

The operation of the device specified in patent 427825 is essentially based on the fact that, in order to be able to use the reverse current as motor energy for the control dynamo, precaution against this Reversing the polarity of the dynamo is hit. For this purpose, a corresponding dimensioning or shunting of the main current winding of the Control dynamo provided, but in many

ίο cases a weaker compounding of the Dynamo conditionally than they would otherwise be chosen for the given operating conditions would. In order to avoid this disadvantage, according to the invention, the polarity of the compounding machine should be reversed in the event of a strong occurrence Backflow can be prevented by the backflow medium or even when it reaches its danger level facilities for the prevention of the urn Poles are immediately put into effect without interrupting the power line. at Such a design of the system can result in the compounding of the current-supplying Dynamo, regardless of the reverse current, are always chosen as they are for the given Operating case is cheapest. Only when the reverse current increases so much, that an impermissible drop in the operating voltage up to the risk of polarity reversal threatens, the reverse current automatically brings devices to the effect that offsets the harmful excess of reverse current. This eliminates the risk of polarity reversal as well as maintaining a practically constant one for all operating situations Operating voltage secured.

The drawings show schematically some exemplary embodiments in FIGS. 1 to 4.

With regard to the power line between the power supplying dynamo A and the working machine C, the device coincides with that described in the main patent. However, the Dynamo A always has the most favorable, non-weakened grain

pounding. The control dynamo is connected to the terminal voltage by the reverse current influenced magnetic switch, which in the event of an impermissible increase in the reverse current switches on the protective devices.

For this purpose, a contactor A 'is used, for example, according to Fig. Ι, whose voltage coil / armature releases at a certain lower voltage limit (corresponding to a certain ίο reverse current strength), whereby a resistor L is connected in parallel with the main current winding H of the dynamo or this is also completely bridged. The return current must then, as the dashed arrows indicate, partly the main current winding of the dynamo and partly the resistor L. or just pass the bridging. As a result, the reverse current in the main current winding is weakened to the permissible level or avoided entirely.

In the embodiment according to Fig. 2, the shunt winding M of the dynamo A is connected to an additional field N in series, which is short-circuited by the voltage coil / relay 0 switched on by the voltage coil / relay 0 when the voltage is constant. The current then branches off from the main shunt field in the direction of the arrow I. As soon as the connection 0 is interrupted in the event of a voltage drop in the field M, corresponding to a maximum amount of reverse current, the current flows from the secondary field M in the direction of arrow II via the additional field N, whereby the number of ampere turns of the shunt field is kept at the required level.

The embodiment according to Fig. 3 also makes use of an additional field iV, which is connected in parallel with the shunt field M and, when the voltage drops, is connected in parallel with the field M by means of the switch P operated by the voltage coil /, as the figure shows. As a result, the current strength in the shunt field is also increased by increasing the number of ampere-turns and, as a result, the field weakening due to the reverse current in the main current winding is compensated for. If the coil / armature picks up again, the field N is switched off and short-circuited to avoid harmful induction voltages.

According to Fig. 4, the shunt field M is preceded by a resistor R connected to the voltage regulator Q , which in normal operating conditions weakens the field to a certain extent. It is assumed here that the dynamo reaches the normal operating voltage during regular operation with weak field saturation. Resistor R weakens the field so far away ( 'current direction arrow I) that it required for the ordinary voltage power reserves drop the voltage Will with appropriate strength of the reverse current, the resistance R is short-circuited by the relay 6 ". The Current in the shunt circuit then branches off in the direction of arrow II, bypassing the resistor R. As a result, the field M is brought to full ampere-turns to compensate for the weakening caused by the reverse current and operated with full saturation.

The invention is not only for the special purpose specified in the main patent, but Applicable to all systems in which compound machines are used in which reverse flow is fed.

Claims (4)

Patent Claims: 1. Arrangement to prevent polarity reversal of the compounding machine Device according to patent 427825 when there is a strong return flow, characterized in that the return flow even if the danger level is reached directly or indirectly, devices to prevent polarity reversal can be activated without interrupting the main power line. 2. Embodiment according to claim i, characterized in that at a maximum amount of the reverse current automatically a resistor or a bypass (L) for partial or total cancellation of the reverse current connected in parallel to the main current winding (H) of the dynamo (A) , with a corresponding drop in the reverse current is automatically switched off again. 3. Embodiment according to claim 1, characterized in that at one The maximum amount of the reverse current automatically amplifies the shunt field (JIi) and with a corresponding drop in the return flow again automatically to the normal Strength is brought. 4. Embodiment according to claim 1 and 3, characterized in that an artificial attenuation (resistance R) of the shunt field (M) provided for regular operation is canceled when the reverse current reaches a maximum value and is restored when the reverse current drops accordingly. For this purpose 2 sheets of drawings.