DE388898C - Dynamo-electric machine - Google Patents

Description

Dynamo-electric machine. The invention relates to a method for Operation of a four-pole starter coupled to an internal combustion engine and lighting dynamo. Such a system is generally referred to as simple Unit system in contrast to a system in which different machines used for starting and power generation (double unit system). In a simple unit system, the one connected to a battery is dynamo-electric Machine mechanically by wheels or in some other way with the crankshaft of the machine tied together. The accumulators provide the electricity when the machine is used as a motor Starting the engine should work. As soon as the engine is in motion has come and runs with its own power, the dynamo-electric machine works as a dynamo to charge the accumulators and lamps or other electrical appliances to feed the vehicle with electricity.

The pace of the engine and thus also the speed of the dynamo is constantly changing within wide limits. It is -desirable performance to keep the dynamo within predetermined limits despite these conditions, to prevent the destruction of four accumulator batteries and a to enable proper charging of the same. In practice, these demands go so far that a constant current supply of the dynamo is required.

For this purpose a mechanical or electromagnetic one was mostly used controlled regulator used in the excitation circuit, which controls the field in the opposite ratio to speed changed.

Attempts have also been made to carry out the dynamo in such a way that its performance automatically to a certain value without the aid of a special regulator hired. The electrical relationships in a simple unit system are very sensitive and present various difficulties in finding a suitable one automatic performance control. These difficulties arise from the requirement that the machine has to deliver a very high pulling torque for a short time when it is used as The starter motor works, whereas as a dynamo they only have a low output allowed, since the batteries to be charged are sensitive and only a very small one Withstand electricity. Apparently these conditions call for a digital no-electric machine with widely differing characteristics. About what is necessary when starting To obtain high tensile torque, it is necessary to give the anchor a low resistance to give with relatively few conductors, which is able to give the very strong current withstand starting at home. If the machine works as a dynamo, the current is considerable smaller size is required while the tension has a sufficient value must to overcome the counter voltage of the accumulators. With certain versions one has the intention of this induced tension at certain anchor speeds to obtain a large magnetic field with the expenditure of strong excitation currents is used. Furthermore, it has also already been proposed to use an anchor that with two commutators and two windings is provided. One of the two windings possessed low resistance and found as a motor winding when the engine was started Use. The considerably higher resistance of the other winding was used, when the machine worked as a dynamo. If necessary, such an execution result in a machine of little effective weight.

According to the invention are certain that provide the magnetic field Pole of the machine suitable to work as a control pole when this as a dynamo runs. The machine can be run with two sets of full field magnets that alternately form poles of different polarity. The plant can be designed in the way that the exciting circuits of the alternating poles are disconnected from the circuit can be, and that the exciting circuits of the remaining poles changed are to take effect with alternating polarity, so that the alternating Poles can amplify the armature feedback for control purposes when the machine runs as a dynamo.

The poles can be arranged in an interval of 100 electrical degrees, while the armature can be provided with a drum winding, the winding pitch of which is approximately 120 electrical degrees. The excitation circuits can be controllable, so that the machine can be used as a motor with poles separated by electrical degrees or as a pole dynamo works with poles offset by i8o °. The armature, on the other hand, can be arranged so that the current runs through a number of parallel branches, depending on whether the machine is acting as a motor or a dynamo, or whether all or only half of the poles generate the field.

The armature of the machine can be fitted with two sets of brushes, one set of which are the ends of the series winding and the ends of the shunt windings the corresponding pole sets with your anchor, while through the anfleren brush set the other ends of the shunt windings are placed on the anchor "-ground.

The main advantages of the invention emerge briefly from the following consideration: When operating a motor, it is important to achieve the greatest possible torque. This is achieved according to the invention by an armature with the lowest possible winding resistance thanks to the arrangement of four parallel paths for the armature current. At the same time, each coil of the shunt winding is connected to points of maximum voltage, so that. it gives maximum field excitation. It should also be noted that the magnetic circuit according to the invention is divided into four parallel branches, which allows maximum saturation. All this results in a motor with the highest possible torque while making the best possible use of the material.

In generator operation, it is desirable because of the small size of the The battery usual for starting and lighting systems is a relatively small one To have performance. It is also desirable to have a generator that is more suitable for this purpose Battery charge a sufficiently high voltage at relatively low speeds results. to this. The purpose is to turn the new machine into a generator transformed, in which there are only two paths for the armature current, which one has four times the resistance as in the motor armature, because there are twice as many conductors are connected in series. This results in a low armature current. Too will be During this time the auxiliary poles are excited and, thanks to their position, have an effect on the armature feedback to emphasize and to further limit the generator power. The new generator owns all the advantages of a two-pole machine.

So in a single machine you have a special motor high effectiveness and all properties desired for engine operation and at the same time a generator which is regulated so that it has the desired characteristics for charge at lower speed and properly regulated power during the charging period Has. Furthermore, according to the invention, the brush arrangement is in motor and generator operation so that the brushes thanks to the internal arrangement of the subject invention of even d'_e have the right position to achieve the desired results without moving the brushes or sacrificing any of the other advantages would have to, as is the case with the older systems.

Fig. I shows a four-pole dynamo-electric machine according to of the invention is carried out and in which the current paths are shown for the case are that the machine is running as a motor.

Fig. 2 shows a development of the armature of the machine shown in Fig. I to show the direction of the current in the armature.

Fig. 3 is a view of the machine shown in Fig. I in her work as a dynamo.

Fig.q. corresponds to the development according to Fig. 2 if the machine is used as a Dynamo is running.

In Figures 5 and 6 are circuit diagrams for the two working conditions expressed by the machine.

Figure 7 shows a full circuit diagram according to the invention Executed starting and lighting system.

The dynamo-electric machine i is provided with a rotatable armature 2, mechanically in any suitable manner with that not shown in the drawing Power machine coupled. is. The dynamo i has four field poles 3, 4, 5 and 6; on which the field windings 7, 8, 9 and io are provided. When the machine When the motor is running, there are all four field windings 7, 8; 9 and io in the circuit. Is working the machine, on the other hand, as a dynamo, are, as explained in more detail below, the Windings 8 and io switched off.

The armature 2 is provided with a commutator i i that controls the brushes 12, 13, i ¢ and 15 carries. The armature winding lies in slots that are around i2o electrical Degrees - are separated from each other. Such a winding has the advantage that it has an equally good effect when it is in a field of four poles or runs in a suitably designed two-pole field. The one increasing by i2o ° Drum winding with symmetrical commutator connection has the advantage that the Brushing, as they are opposite in the center line of the poles, is the best position take to produce maximum torque when the machine is four-pole The engine is running. Furthermore, the brushes are also in the line of the maximum induced E. M. K. ,, if the machine works as a two-pole machine. An adjustment brushing is therefore not required.

In Fig. 7 a circuit slip for event and lighting purposes is shown. In the position shown. there is a connection between the armature and the accumulator battery 16, through which the lighting circuit 17 can be fed. An automatic switch 18 is provided between the armature 2 and the battery 16. Its job is to connect the machine to the accumulators and to maintain this circuit as long as the machine works as a dynamo to feed the accumulator battery. A starter switch ig is also arranged between the utility circuit and the dvnamoelectric machine and the battery, which is held in a position shown in FIG. 7 by spring pressure. In this lower position the switch 19 connects the contacts 2o and 2i, and thus closes the circuit of the brush i2 to the automatic switch 18, so that a compound of the brush i2 is present with the battery, _ when the switch 18 is in its bonding position, is located. The other pole of the battery is connected to @ the brush i ¢ of the machine.

When the S; .halter ig is pressed upwards against the spring action, it connects the contacts 22, 23 and 2q .; At the same time, an auxiliary switch 25 is actuated by the movement of the switch ig, which establishes a connection between the contacts 26 and 27. In the upper or starting position of the switch ig there is a direct connection between the brushes i2 and 1q. present, are connected to the windings 8 and-io while the brushes 13 and 1. 5 In addition, one terminal of the battery is connected to brushes 13 and i5 through windings 8 and io. The system works in the following way. If the dynamo-electric machine is to serve as a motor for starting the engine, the vehicle driver pushes the switch ig into its starting position. The connections then made are shown in Fig. 5. The current flows from the positive terminal of the battery to a junction, from where half of the current flows through winding io to brush 15 and the other half through winding 8 to brush 13. The Pole d. and 6 are excited by the windings 8 and io with the same polarity, which according to the example assumed in the figure, the poles d. and makes 6 south poles. A certain amount of current can flow through the shunt winding 7 to the negative brush 12 and also through the shunt winding 9 to the negative brush 1 [. The poles 3 and 5, which are excited by the windings 7 and 9, have the same polarity and are north magnetic according to the example shown. This creates alternating poles of different polarity. The battery current also flows through the conductors of the armature, in the direction shown in Figs. Due to the low resistance in the electrical circuits of the machine, it will have a high tensile torque. The low resistance of the armature winding is subject to the effect of four pole pieces. If you now switch the machine to generate electricity, the number of conductors is divided into two parallel branches. As a result, the armature's resistance to motor work is only a quarter of what it would be in the case where the machine works as a dynamo.

As soon as the engine is started, the operator turns on the starter switch free; this returns to the position shown in Fig. 7 and establishes the connection according to Fig. 6. At the same time, the automatic switch 18 is also open. The current now flows from the positive brush 12 through the shunt winding 7 to the brush 13, then through the armature winding to the brush 15 and from here through the Coil 9 to the brush 1q .. The poles 3 and 5 are through the windings 7 and 9 with unequal polarity excited, so that according to the example shown, the pole 3 a South pole and the pole sa becomes a north pole. Meanwhile, the series windings are the Poles .4 and 6 are disconnected from the circuit and are effective when the machine is not under load as neutral poles. The maximum terminal voltage is the shunt windings; and 9 pressed on. As soon as the automatic switch i8 closes, however, flows the power to the battery. This current is also passed through the armature windings in the from Fig. 3 and d. apparent direction flow. Pole .4 now becomes south magnetic and Pol6 north magnetic, so that a voltage difference between the brushes 13 and 15 is developed, the former having the higher potential. This will make the Current in the shunt field winding is reduced by that between the brushes 12 and 13 and the brushes 1.4 and 15 effective voltage drops when the between the brushes 13 and 15 effective tension grows. This phenomenon occurs on the ground the ouadrature frictional connection, which is caused by the armature current.

In the case of the machine, according to the above, there are effects that the sub-sensory field gives maximum support to strengthen the field, when the machine is working as a motor, and that this shunt field is automatic is regulated when the machine is running as a dynamo. At the same time there is the advantage that in both cases the entire material of the machine is usable.

Claims (1)

PATENT-A @ VSPRUCH: \% learn about the operation of a finite internal combustion engine Coupling part four-pole starting and lighting <lvnanio that when starting (Operation as motor) four-pole, but after start-up (operation as generator) is switched to two poles by de-energizing one set of poles, characterized in that that on different pole sets (d., 6 or 3, 5) arranged main current exciter windings (8, io) and shunt exciter windings (7, 9) partly via the control switch (i9) with each other, sometimes with two sets of anchor brushes (12, 1.4 and 13, 15), the expediently with a drum winding with a winding pitch of i 2o electrical degrees work together, can be connected in such a way that the successive Poles have different polarity, but when transitioning to generator operation the polarity of one of the two poles remaining in the circuit is reversed and at the same time the number of armature branches is reduced.