DE197431C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 197431 CLASS 46 b. GROUP

Patented in the German Empire on April 22, 1906.

Suction gas engines and engines that are operated with low-quality gases have proven to this day, despite many advantages which they undoubtedly possess, as not suitable for operating wagons, be it on roads or on rails.

The main reasons that oppose their use are:

i. The machine cannot start up on its own ίο.

2 .. The regulation of gas production depends kinematically on the engine itself. Consequently Both the quality and the quantity of the gas produced are practically reversed Relation to the performance of the engine, especially during the start-up period. This point must be considered a whole particularly difficult to solve.

3. The systems that have been in use up to now closed each time they were put into operation Laborious trial and error is required, based on the respective consumed Force to find the appropriate ratio between gas and air.

It was this circumstance in particular that caused the gas generators mentioned, both those which are used for the production of suction gases, as well as those which are used for the production of pressurized gases, made unsuitable for moving loads, there the power which was used up in this case fluctuates at every moment.

4. The addition of an auxiliary gasometer did not meet the requirements, which in solving this problem.

5. Demand the fluctuating performances inherent in all of these types of gas systems an automatic regulation imperative, since this alone is capable of the unconditional to replace the necessary constant attention of the machinist.

The subject of the present invention is an automatically regulating, electric motor driven Mixture generator, which specifically the use of suction gas locomotives and engines, which with low-quality gases operated, allows.

The same consists in the new union of a number of already known devices, which are mechanically and electrically connected to each other in a special way are.

This new connection of the suction gas engine or any operated with low quality gases Engine with suction or pressure gas generator, with one or more electrical, machines that are invariably related to the engine, depending on the electrodynamic Equilibrium position of the system can work either as motors or as generators, a backup battery and this specially made connections leads to the solution of the problem. The amount and the quality of the gas is directly adapted to the needs of the engine, guaranteed a supply of the gas and air mixture, independent of the engine piston, as well as the necessary for the generation of low-value gases Amount of water and, in the event of an overload of the engine, leads to the grain

pressure of the gas mixture fed to the same j.

All those apparatus which are responsible for the production and supply of the constituents get the explosive mixture are driven by an electric motor.

Even if the accumulator battery is omitted in the above connection and instead, motors used to drive the work machine to be driven be switched on, while however the dynamo, which invariably with the explosion engine is coupled, works exclusively as a power generator, the operated system remains applicable.

Briefly, the basic principle of the present invention is as follows:

As long as the apparatus acts as a mixture generator, it allows the mixture to explode coming gases in any ratio. However, if it acts as a regulator, a gas mixture is fed to the motor, which is more or less compressed or diluted depending on the requirement.

The accompanying drawings show several exemplary embodiments in schematic representations of the present subject matter of the invention.

In Figs. 1, 2 and 3 backup batteries are provided. In Fig. 4 is the backup battery replaced by a motor.

ι refers to the motor.
2 is an electric machine coupled to the motor 1.
3 is an accumulator battery.

4 is a shunt motor connected to the above battery.

5 is an electric generator whose armature is arranged on the same shaft as that of the motor 4 is.

6 is the device for introducing the necessary amount of air into the generator mixture of the engine 1.

7 shows the device for introducing the gas.

8 denotes the drive of the device for introducing the washing water into the Scrubbers.

9 indicates the path of the main stream.
10 is the feed line for motor 4.

11, 11, 11 are excitation currents, some of which start from the generator 5, partly from the battery 3.

12 is the field winding of the motor 4.
13 is the field winding which is connected to the battery and acts on the generator 5.

14 and 15 are windings in which the Armature current of the electric generator 5 flows and which in a corresponding manner on the field winding 12 of the motor 4 and are wound onto the winding 13 in such a way that matching magnetic fields are generated.

16 is a winding for the main current from the battery, its magnetism that of the coils 12 and 14 is opposite when the battery sends power, and is rectified when it is charged. This winding is wound onto windings 14 and 12.

16 ¹ is a winding for the main current emanating from the battery, the magnetism of which is opposite to that of the coils 13 and 15 as soon as the battery sends .Strom, and is rectified as soon as it is charged. This winding is wound onto windings 15 and 13.

17 is an arrow indicating the direction of the discharge current of the battery.

18, 19, 20, 21, 22, 23 and 24 are arrows, which are used to designate the electrical currents.

25 is an arrow indicating the direction of the charging current of the battery.

26 (Fig. 3) is a coil system, which is composed of 27 and 28. These are windings which are shunted to the main current 9. she act in the same way as the winding 16 of FIG. 2.

29 is a polarization element consisting of an aluminum and an iron electrode in a solution, which can be an alkaline one, for example. This element leaves the Current only flow through in the charging direction indicated by arrow 25. Is the If the direction of the current is reversed, it is formed as a result of the decomposition of the solvent the aluminum electrode a precipitate of aluminum oxide hydrate, which the current does not conduct.

30 (Fig. 4) is an electric motor that is used to drive the work machine.

31 is a winding through which all or part of the current 9 flows and acts together with the field magnet 12.

32 is the series winding of motor 30.

33 is a series winding of the Dynamo 2.

34 is a shunt winding of Dynamo 2.

35 are arrows indicating the currents flowing in an invariable direction.

W ¹ and W ² in Fig. 1 are regulating resistors.

The devices used to suck in air or compress the gases in serve the mixture generators, as well as the device 7 for introducing the gases in the motor, the device 6 for introducing the air and also the device 8 for introducing the water on the axis of the auxiliary motor 4, which is a shunt motor

can be arranged. The motor 4 is at the ends of the battery 3 or at any one any part of the latter connected. In FIG. 2, the electric motor 4 is permanent connected to an auxiliary generator 5, whose excitation windings are partly in the armature circuit of the generator can be switched on. The current of the generator passes through an additional winding 14 of the electric motor.

A third winding of the electric motor, which consists of a few windings of the wire, through which the main current flows either wholly or partially from the dynamo 2, which latter is connected to the explosion motor τ, completes the device. The whole thing is put together in such a way that a rotating converter is obtained, by means of which speeds which can be varied as desired, depending on the electrodynamic equilibrium of the system, can be achieved. With this arrangement, the speed of generation and that of supplying the air and gases to the engine can be combined so that cylinder charges of arbitrary pressures can be obtained. The present system therefore also allows the gas mixture supplied to the engine to be compressed.
In the event that the motor 4 and the generator 5 are combined, the windings 12 and 13, 14 and 15, 16 and 16 ¹ can of course also be combined (FIG. 1).

FIG. 3 shows an arrangement in which the coil 26 is divided into two parts 27 and 28

35 'is divided, each of which is derived from a secondary circuit drawn from the main stream 9 composed. In one of the two shunt circuits 27 a 'polarization element 29 is switched on, so that this current circle is only traversed by the charging currents indicated by arrow 25, while the Charging currents and discharging currents flow through any other circuit or vice versa will. It is clear that in the case shown you have it in your hand, the effect of the main discharge current on the motor by placing it on the one coil limited and at the same time allows the main charging current to act on both coils or vice versa.

The device without a battery is shown in FIG. The production and the consumption of the mixture correspond to the strength of the current that is consumed by the motor 30 will.

In systems in which low-value gases are used as fuel, the present device, which automatically regulates the enrichment and supply of the gas mixture, can conveniently be used behind the scrubber, but only if it is a suction gas generator. In the case of compressed gas generators, it is best to place the apparatus in front of the gas generator. The device thus acts once as exhaust fan, once as a compressor and automatically and completely independent W ^T else ■ the task which had been given up, both what the aspiration of the gases through the combustion engine itself and which thus fulfills the Compression of the charge by means of a compressor mechanically driven by this engine is concerned. At the same time, the deficiencies indicated above are completely eliminated.

According to the present invention, the discharge of the gas and the air are either simple Fans, pumps or other suitable devices are used. In certain Cases one will be satisfied with 80 'by means of the present automatically regulating, Electric motor driven mixture generator only one of the parts to be assembled to regulate the explosive gas mixture by adjusting the mixing ratio of the remaining Leaves components out of consideration. You can also use differential devices for delivery of the individual components of the mixture by adding one or several hoist motors or to the battery switches on closed transformers.

Finally, in the same way, the dispenser for the in the Scrubbers put water in motion so as to increase the amount of water generated by the amount of gas to be able to adapt in the right proportion. It can also be used in place of one motor, two of which are used in this way be that one works evenly, i.e. at about the maximum power output while the other works variably and is influenced solely by the apparatus described above.

In the above-described device with accumulator battery, this works in the Practice automatically as a backup battery only if the following conditions are continuously met will:

1. a correctly measured amount of the gas mixture must be generated at every instant ge wanted and fed;

2, in the event that the force of the explosion engine is too great, must the generation and supply of the explosive gas mixture is reduced accordingly-115 can.

If, on the other hand, the performance of the explosion engine is not sufficient, more must be done Generate and supply gas mixture. Because should the fluctuations in power output balancing battery really work properly, so you have to last

mentioned case can use the stored external energy usefully, in order to be able to supplement these again in the second case, so that one is always able to maintain electromechanical balance of the system. Now that the state of the Battery alone can influence this state of equilibrium, so is it which one must compensate for the fluctuating performance of the explosion engine by the generation and supply of the explosive gas mixture is regulated accordingly.

The mixture generator described thus allows a solution to the initially stated Task in two directions, and not just as a generator or carburator the explosive gas mixture in the respective required ratio, it also effects as Controller that the mixture supplied to the engine is correspondingly more or less compressed or is diluted.

If the explosion engine is working at normal speed and power, they have Supply devices for the gas and the air that speed, which the Maintaining these services releases necessary gas mixture by doing the same can be influenced by the shunt motor 4 connected to the battery 3 is. The state of equilibrium is therefore preserved at this moment. On the other hand is now the armature of the motor 4 is arranged on the same shaft as the armature of the generator 5, whose main current flows through a winding 14 which is applied to the field winding 12 of the Motor 4 is wound up, so that a matching magnetic field is generated. Finally is located on the field magnet of the motor 4 a consisting of a few turns Winding through which the battery current flows and whose magnetism corresponds to that of the Coils 12 and 14 are directed in the opposite direction once the battery sends power, however the magnetism of the coils 12 and 14 rectified is as soon as the battery is charged.

Deliveries under the aforementioned conditions

the engine 4 before cranking the maximum of the gas mixture. The gas mixture has during the introduction into the cylinder a voltage which is above atmospheric pressure lies. It is therefore brought into the cylinders under pressure.

Accordingly, the currents that run through the windings of the motor 4 act in the Way that the engine and thus the devices for generating and supplying the gas the highest possible speed is granted. From the moment you start up So the dynamo, which is invariably connected to the explosion engine, will act as a motor, the battery delivering a significant amount of electricity. The main stream accelerates the revolutions of the motor 4 by having the magnetic field of this motor through its the opposite effect to the shunt line here weakens.

If one now sets the case that the resistance is higher on an incline, the Naturally, slow down the movement of the explosion engine. The battery is therefore going to Maintaining the previous speed, sending electricity, keeping their voltage decreases. The motor 4 slows down its speed while the generator 5 its Excitation current reduced; the magnetism present in the field of the motor 4 becomes therefore weaker as the speed of the motor increases.

Is also the field magnet provided with strong windings of the main current to the motor and common to the dynamo, a field reduction occurs both in the inductor of the Motor 4 as well as that of the generator 5. As a result, it becomes a larger one Amount of the gas mixture generated and supplied as long as the electromechanical equilibrium the system is not restored.

Assuming now the case that the resistance becomes smaller, it is clear that the explosion engine will strive to run faster. The battery will therefore begin to charge itself to keep up with the speed Obtain height. The voltage of the battery will therefore increase. The engine 4 also receives increased speed while the generator 5 in field windings 12 of the motor 4 sends in a rectified, gradually increasing current. The force field of the motor 4 will therefore grow while the speed of the motor 4 will decrease. The series winding in the main current is generated by the charging current in the field windings 12 of the motor 4 a rectified field, which amplifies its magnetism and during its duration seeks to reduce the speed of the motor. It will therefore A control system for both the generation and the supply of the explosive gas mixture achieved. The gas generating device can be automatic on electrical or mechanical Ways or even by hand can be brought to a standstill by adding resistances turns on in the armature of the motor 4.

In the accompanying figures, the field windings and the armature are shown separately. In practice, however, the device may include one differential converter, two of which Anchors lie in the same force field, which is either as specified above or in in any other way.

From now on, the gas mixture is fed to the engine independently of the engine piston.

There may also be others for engines that run on volatile fuels Control devices of the carburator are omitted.

For example, if the fuel is liquid, the device 7, which delivers the fuel, simply an ordinary pump 0. Like. Be, which the liquid fuel presses into the cylinder with higher or lower pressure. '

Claims (4)

Patent claims: 1. Mixer generator for engines equipped with a special generator, characterized in that the devices for generating, dispensing and cleaning of the fuel are driven and controlled by an electric motor with differential action, so that the generation of the mixture is always adapted to the variable load on the suction gas engine. 2. Mixer generator controlled by an electric motor according to claim 1, characterized by arranging a dynamo (2) on the shaft of the explosion engine (1) buffer connected in the usual way. battery (3), at the terminals of which a differential motor (4) and a differential generator (5) lie, their anchor on a common, the device for the generation, Cleaning and supply of the gas mixture driving shaft sit and of their Field windings one from the main current of the battery and the other from the armature current the former dynamo (2) are fed, so that the speed of the driven shaft corresponding to the required amount of gas is regulated. 3. Electric motor-controlled mixture generator according to claim 1 and 2, characterized characterized in that the main current winding of the differential motor is divided and in one part is switched on by a primary element. 4. Mixer generator controlled by an electric motor according to claim 1, characterized in that that in the main circuit one sitting on the shaft of the explosion engine Dynamo (2) an electric motor (30), which is used to drive the work machine, is switched on, and that the main current Furthermore, a field winding (31) of the differential motor (4) driving the mixture generator flows through the other field winding (12) is connected in parallel to the dynamo. 1 sheet of drawings.