DE503931C - Device for the accelerated shutdown of work machines controlled by Leonard dynamos - Google Patents

Description

Device for accelerated shutdown by Leonard dynamos controlled machines In Leonard systems, the speed of the Work engine in normal operations by changing the excitation of the control dynamo regulated, with the armature of which the armature of the working motor is connected in parallel. By Weakening of the excitation of the control dynamo can be a gentle shutdown of the work motor easily achieve. When using Leonard units in companies that Under special circumstances, stopping the work engine as soon as possible: require, for example in conveyor systems, the weakening of the excitation acts Control dynamo to reduce the speed of the work engine not fast enough. To remedy this, a special so-called emergency switch was put in place high resistance in the excitation circuit of the control dyna-ino, which is faster Weakening of the excitation of the control dynamo than the normal control apparatus allows. Simultaneously with the excitation weakening of the control dynamo by the emergency switch, one then brakes the working motor by a special device.

In your described switching process, the appearance now has showed that the working motor, which maintains its tension, now switches to the control dynamo working back. This creates an additional braking force on the working motor exercised, which may seem desirable at first.

The advantages of electrical braking of the work engine by the Leonard circles are only apparent. Because this electrical braking from the remanence depends on the excitation circuits of the machines, their size can never be determined exactly. charged place. If the working motor is used, for example, to drive a conveyor system Driving pulley, an impermissibly strong braking force can be exerted on the pulley which causes the rope to slip on the pulley.

It could now seem obvious that the electric braking is caused by it to remedy that one interrupts the armature circuit of the control dynamo and the working motor. However, since incorrect work or failure of one leads to an interruption of the armature circuit serving switch in; Establishments, for example in the case of a contaminated one. Conveyor system, would have the most serious consequences, this path is not feasible. In the common Armature circuit of the control: dvnamo and of the work motor must not in any case Switch can be arranged.

According to the invention, a reliable and rapid interruption of the electrical energy flow between the working motor and control dynamo is achieved in that, at the same time as opening the emergency switch in the excitation circuit of the control dynamo, a previously bridged resistor is switched on in the excitation circuit of the working motor, the mode of action (oscillation resistance) by the German patent specification 42 1 396 has become known. Appropriately, at the same time, in order to avoid overvoltage on the excitation winding of the working motor, a resistor is connected in parallel with the excitation winding of the working motor. If the excitation current of the work motor has now fallen under the effect of the oscillation resistance, the excitation of the work motor is switched off completely.

In the .Abbild a circuit according to the invention is shown. The armature of the control dynamo 2 driven by the engine i is connected to the. Anchor des a work machine q. tre @ fbenden work engine 3 connected. On the wave of At the same time, a DC exciter 5 is attached to the motor i, which is used for excitation the, control dynamo and the work engine is used. In the excitation circuit of the control dynamo on the one hand is the one used in normal operation to regulate the speed of the working motor Control apparatus 6 and also the emergency switch intended for quick shutdown 7, which switches on a high resistance in the excitation circuit of the control dynamo.

The above-mentioned oscillation resistance is located in the excitation circuit of the working motor 8, which is bridged by a switch 9 in normal operation, as well as a after Reduction of the excitation current through the oscillation resistance of open switches ok The excitation winding of the working motor 3 is a resistor i i via a switch 12 connected in parallel. Switch 12 is used to reduce overvoltages on the field winding to avoid being closed when opening the switch io.

Claims (1)

PATENT CLAIM: Device for the accelerated shutdown of work machines controlled by I_eonard dynamos, characterized in that, at the same time as the excitation of the control dynamo is switched off, an oscillating resistor (8) is switched into the excitation circuit of the work machine to close the excitation circuit of the work machine after a rapid decrease to be able to interrupt the excitation current to a low value by another switch.