DE605925C - Device for keeping the auxiliary mains voltage constant on diesel-electric vehicles - Google Patents

Description

Device to keep the auxiliary mains voltage constant on diesel-electric Vehicles In diesel-electric vehicles, the voltage of the diesel engine fluctuates driven DC generator between widely spaced values, so that the lighting system is not fed directly from this generator can. There are devices known in which the lamps have an automatic Regulators are connected to the diesel generator and thus their voltage is constant Value is regulated. In such devices, the lamp voltage is then the same or smaller than the smallest occurring value of the fluctuating DC voltage, and the respective difference in voltages is consumed in the rheostat. In other facilities, the lighting energy is supplied by a special group of converters generated whose motor is connected to the variable voltage. The machines of the converter group must then be dimensioned for the entire lighting output and a control device for keeping the voltage constant.

There are also machine units in economy circuit known in which the variable direct current voltage is based on two mechanically connected in series Coupled machines distributed, one of which with the constant lamp voltage works, while the other works on the one hand with the variable tension, on the other hand is excited with a constant voltage in counter-circuit. With this arrangement can reduce the voltage of the auxiliary network despite the use of oversized machines cannot be kept constant with sufficient accuracy.

According to the invention, however, when using one machine group smaller space requirements and weight, the tension of the auxiliary network remains the same be held when one of the machines is so excited via a rapid regulator that their voltage is the difference between the variable generator voltage and corresponds to the constant auxiliary mains voltage.

The drawing shows an embodiment of the invention. In Fig. z the circuit is shown for the case that the variable voltage is the Always exceeds lamp voltage. Then the regulator's rheostat is shunted switched. Fig. 2, however, shows the controller in a potentiometer circuit that is used becomes when the lamp voltage is between the limits of the variable voltage lies.

In FIG. Z, generator a and battery b represent the current source with variable voltage, which feeds the lamp network e directly via the machine set c, d. The field f of the machine c is controlled by the fast controller g, while the field h of the machine d is shunted to the terminals of this machine. It is assumed, for example, that the variable voltage varies between z = 0 and 165 volts for charging the battery while the lamps are with. the constant voltage of zoo volts are to be fed. Then, since the voltage of the DC power source a and b always being greater than the lamp voltage, the machine operates as a motor c with its voltage corresponds to the difference between these voltages. The power generated by the motor c is returned to the lamp network by the machine d, so that the current supplied by the power source is less than the lamp current, neglecting the losses. The regulator g, which is connected as a voltage regulator, regulates the excitation of the machine c in such a way that the lamp voltage of 100 volts remains the same, regardless of which voltage between 110 and 165 volts is generated by the direct current source.

But the lamp voltage would have a value between the limit values the variable DC voltage, e.g. B. i3o volts, the regulator should the potentiometer circuit of Fig. 2 obtained so that the machine c in both Directions could be excited. In this case machines c and d would alternate work as a motor while the other machine is delivering electrical power would.

Another advantage of this circuit is that the fast regulator only has to regulate a small excitation power and accordingly small and turns out cheap. It would be uneconomical at all for larger auxiliary network services and hardly possible without an auxiliary group directly with the fast controller via one Resistance to keep the voltage constant.

The lamp network fed with constant voltage can still further electrical auxiliary equipment of the diesel vehicle can be connected, see above that in this case the more general term "auxiliary network" is appropriate.

Claims (3)

PATENT CLAIMS: i. Device for keeping the auxiliary mains voltage constant on diesel-electric vehicles in which the generated by the diesel generator variable direct current voltage is based on two mechanically connected in series Coupled machines distributed, one of which with the constant auxiliary mains voltage works while the other is excited so that their voltage is the difference between the variable generator voltage and the constant auxiliary mains voltage corresponds, characterized in that the other machine (c) has a rapid regulator (g) is excited. 2. Device according to claim i, characterized in that the Rapid regulator (g) is a voltage regulator that only regulates the size of the field (Fig. i). 3. Device according to claim i, characterized in that the rapid regulator (g) is a voltage regulator with a potentiometer circuit that controls the magnitude and direction of the field regulates (Fig. 2). q .. device according to claim i, characterized in that that the machine (d) working with auxiliary mains voltage has a constant setting Has shunt excitation (h).