DE535261C - DC generator with disconnectable compound winding for electric vehicles with internal combustion engine drive - Google Patents

Description

DC generator with disconnectable compound winding for electrical Vehicles with internal combustion engine drive For diesel-electric power transmissions, as they are particularly suitable for vehicle drives, is usually one of an internal combustion engine powered - shunt generator used in Is regulated as a function of the speed of the internal combustion engine. The generator supplies one or more drive motors of the vehicle with electricity. The known Arrangements of this type have the disadvantage that the generator over when starting up the field and armature windings of the stationary motors are almost short-circuited, very difficult to get excited. The generator must with large start-up 'currents with a undesirably high speed are driven so that it supplies voltage at all. For this reason one has already gone over to special auxiliary windings to be provided as external excitation or compound windings for the generator that consist of fed by a battery. However, the presence of a battery is common undesirable because the space required for this is not available. One switches this auxiliary winding as a so-called. Compound winding without a battery in the circuit of the generator, this has the advantage that the generator is faster is excited that. Compound winding brings a certain amount of energy during operation Disadvantage with itself. This consists in the fact that with increasing load the tension of the generator is kept almost constant. -This disadvantage becomes according to the invention this eliminates the fact that the compound winding can be switched off depending on the voltage is arranged. In the further course of the invention, the compound winding becomes dependent switched from the voltage to a counter compound winding.

In the figures of the drawing are some exemplary embodiments of the subject matter of the invention shown schematically. Fig. I shows the circuit diagram a power transmission arrangement with one driven by an internal combustion engine Generator with disconnectable compound winding; Fig.2 the same arrangement in which the switching device for the compound winding to this at certain voltages a counterpound winding switches, Fig. 3 the circuit diagram of a generator arrangement with compound and counter compound winding, which alternate depending on the operating conditions can be switched on and off, Fig. 4 - a compound corresponding to Fig. 3 - or Gegenkom pound winding arrangement -in application -an an exciter for a generator: In Fig. i, i is that of the one sitting on the same shaft with it Diesel engine 2 driven bypass generator with the bypass Winding 5 and the compound winding 6. Between the power line 3 for the generator i and the winding of a contactor 7, which is located in the power line 3 Auxiliary winding 6 short-circuits when the electromagnet 7 is attracted.

In Fig. 2 i is again the diesel engine driven bypass generator with the shunt winding 5, which is connected to the power line 3 and 4. In the power line 3 is the auxiliary winding 6 and parallel to this the terminals 8 and g of a switching device io, the switching lever ii of which is influenced by a spring i2 and a switching magnet 13 located between power line 3 and earth is.

In Fig.3 i is the shunt generator with the one connected to the power lines 3 and 4 connected shunt winding 5. In the power line 3 are two auxiliary windings 14 and 15 turned on, which are wound in opposite directions and alternately through the Changeover switch 16 can be short-circuited. The switch 16 is again by the between the line 3 and the earth lying electromagnet 7 against the train of a spring 17 knocked down. When the magnet 7 is not energized, the spring 17 holds the switching lever of the Switch 16 fixed in one position.

In the embodiment shown in Figure 4, i is the shunt generator with the shunt winding 5, which is connected to the terminals of an exciter 18 with. Field winding ig and auxiliary windings 14 and 15 is connected. The alternately Switching on or short-circuiting the individual windings 14 and 15 is through the Changeover switch 16 causes the under the influence of the spring 17 and between the power line 3 und'der the earth lying electromagnet 7 is. Between the power lines 3 and 4 the respective consumers are then switched on. The drawn and described Embodiments can be adapted to the respective needs of the practice experience numerous modifications that are within the scope of the invention.

As long as in the embodiment according to Fig. I at the terminals of the Generator i the voltage has not yet reached a certain level, remains the Electromagnet winding 7 unexcited and the compound winding 6 in the power line 3 switched on. As soon as the winding of the electromagnet 7 responds, the auxiliary winding 6 short-circuited and their influence canceled. When the voltage drops between the power lines 3 and 4, the electromagnet 7 falls off again and lifts the Short circuit of the winding 6.

In the embodiment according to Fig.2 there is no shutdown of the Winding 6, but instead of switching this winding in the sense that after the current in the winding 6 has been switched over in the opposite direction to the previous one Direction of current flows. The winding 6 thus acts alternately as a compound winding and a counter-compound winding.

In the embodiments according to Fig. 3 and 4, the auxiliary windings 14 and 15 alternately short-circuited or as compound and counter-compound windings made effective. The windings 14 and 15 can with regard to their number of ampere turns be graded.

Claims (4)

PATENT CLAIMS: i. DC generator with compound winding that can be switched off for electric vehicles with internal combustion engine drive, characterized in that that the switching off of the compound winding (6) by a voltage-sensitive relay (7) is effected depending on the terminal voltage of the generator (i). 2. DC generator with compound winding according to claim i, characterized in that that the switching device (io) for the compound winding (6) is designed in such a way that depending on the voltage, they turn them into a counter compound winding to the . The influence of the contactor (13), the spring (i2) and the lever (ii) switches over (Fig. 2). 3. DC generator. with compound winding according to claim 2, characterized in that that for the generator (i) a compound winding (14) and a counter compound winding (15) is fully provided which one or the other depending on the prevailing Voltage through the switch (16) under the influence of the contactor (7) and the spring (17) is made effective (Fig. 3). 4. DC generator with compound winding according to claims i to 3, characterized in that the compound winding which can be switched off (6) or the compound and counter compound windings (14, 15) on the exciter (18) for the generator (i) are arranged (Fig.4).