DE2647836C3 - Device for charging a uter internal combustion engine by means of an exhaust gas turbocharger - Google Patents

Description

The invention relates to a device for charging an internal combustion engine (engine) by means of an exhaust gas turbocharger consisting of a turbine and a compressor, which is designed so that the compressor delivers the required amount of charge air when the engine is fully loaded in the lower speed range and with a between the compressor outlet and the engine By-pass valve for adjusting the amount of charge air in the line leading to the engine and for opening or blocking a branch line which is connected in the by-pass route with respect to the engine to the turbine inlet. The by-pass valve can be designed as a four-way valve. In this case, a further branch line for blowing off charge air at peak loads is connected to it.

The invention is used to improve the performance of internal combustion engines with exhaust gas turbocharger, especially when there is an increase in load or acceleration.

The acceleration behavior of supercharged engines is often unsatisfactory because suddenly larger ones Air quantities are required than the compressor can deliver at the moment of acceleration. To the If the amount of air increases, the supercharger speed must be increased. But the turbine has to do more than that Energy, d. H. larger amounts of exhaust gas have to be supplied at such higher temperatures. This continues again more charge air ahead, which - as described - is not immediately available. - The result is, that the engine accelerates slowly from the lower speed range out, whereby for the combustion process there may be a temporary lack of air, which not only means poor fuel economy, but also contributes to increased environmental pollution. The lack of air manifests itself in the diesel engine in unburned solids in the exhaust gas, in black exhaust smoke, in gasoline engines in increased CO-CH content in the exhaust gas. There is therefore the general problem, the acceleration behavior of supercharged Internal combustion engines improve incomplete combustion when accelerating and to reduce the specific fuel consumption when accelerating.

In a known device of the initially

described type with actuator or four-way valve, the same already has a blow-off opening (FR-PS 2111502). This is a blow-off option at Given a peak load that does not go through the turbine. Blowing off at peak load protects the engine from too high ignition pressures, the turbine from too high a temperature. For controlling the actuator is only stated that the air supply is regulated according to the speed of the engine. That gives does not automatically set different connections.

DE-OS 22 12 960 also starts from the problem that too little during acceleration Charge air is supplied. To solve this problem, two lines are provided in the known case, which for Inlet line of the engine lead, a suction line, which is used for operation below the full load characteristic, and a pressure line leading from the compressor to the engine. Furthermore, the known device requires two Turbines. The branch line between the bypass valve and the first turbine carries part of the charge air to the turbine inlet of the first turbine, i.e. in the byway past the engine. This branch line is controlled by flaps on its entry and exit side of the accelerator pedal or the fuel quantity adjustment member from operated In the known case, this forced control is a very extensive linkage intended.

It continues to be used to improve the acceleration behavior of supercharged internal combustion engines known to design the turbine cross-section very narrow, so that even with low exhaust gas quantities a high Charger speed is reached. In this known case, the supercharger speed is too high when the engine load is high Boost pressures become too high, the charger can be damaged. To improve this, in the charge air line or on the turbine side in the fresh gas line blow-off valves installed - apart from that, that even if the turbocharger is underdimensioned, the charger will only accelerate if more Exhaust gas is available - that is, a period, albeit a short period of lack of air - is used by the Blow-off regulations Energy wasted unnecessarily and, in the case of fresh gas blow-off, also that of the Dirt content of the exhaust gas, in particular chemically aggressive components, dependent operational reliability of the exhaust valve in question

The invention is based on and proceeding from a device of the type mentioned at the beginning the aforementioned general problem, the task is based on the operating behavior, in particular with sudden increases in load or accelerations, through an automatic and instantaneous Adjustment of the amount of charge air by means of a simple, lightweight arrangement to improve.

The solution to this problem consists in a device with a four-way valve and two branch lines that according to the invention the four-way valve with the regulator of the fuel supply of the engine via a Priority is connected

Advantageously, only a single turbine is necessary; the forced control can be designed very simply. All three operating ranges, light or normal load, load increase or Accelerate and peak load with automatic, instant adjustment of the charge air volume the respective need manageable. When the load is low, the first branch line to the turbine inlet is open,

so that only part of the amount of charge air reaches the intake valves of the engine. When accelerating the first branch line is blocked so that the entire amount of charge air is fed to the engine. at Peak load becomes the second branch line when a relatively high load threshold is exceeded open to the turbine outlet to! Overloads too avoid.

In contrast to the known device with four-way valve mentioned at the beginning, there is a positive control the same provided and this takes place directly under the influence of the regulator of the fuel supply of the engine so that the four-way valve is switched in synchronism with the change in the operating ranges

The discharge of charge air only takes place as is Protective measure at peak load, d. H. in relation to The known cases with blow-off control also mentioned at the beginning are used in the operating areas Weak speed and acceleration worked with optimal energy utilization.

The four-way valve can expediently either from the fuel regulator or from the fuel regulator when the engine is under high load can also be controlled by the boost pressure. In both cases, this is in contrast to what was described at the beginning known turbocharger (FR-PS 21 11 502) an automatic Adjustment of the different connections. The current operating range switching and Adjusting the amount of charge air to the fuel supply improves both the protection of the engine from excessively high levels Ignition pressures as well as that of the turbine before too high Temperatures. Both the pollutant content in the exhaust gas and the specific fuel requirement when accelerating of the engine are reduced.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing This shows an internal combustion engine with an exhaust gas turbocharger and a four-way valve.

According to the drawing is an internal combustion engine, for example a diesel engine, provided with a compressor 2 and a turbine 3 running on a -10 sitting common shaft. A charge air line 4 leads from the compressor 2 to a four-way bypass valve 5, from which a line 6 to the engine 1, a first branch line 7 to the turbine 3 or into that from the engine 1 Exhaust pipe 8 leading to turbine 3 and a second branch pipe 9 to turbine outlet 10. That Four-way valve 5 is via a positive control indicated by a connecting line 11 with connected to the regulator 12 for supplying fuel to the engine.

The mode of operation of the device is explained below Turbine 3 existing exhaust gas turbocharger supplies the engine 1 with charge air. For this purpose, outside air is supplied via a The compressor inlet 2 'is sucked in, compressed and fed through the charge air line 4 to the four-way valve 5 The turbocharger is designed in such a way that, when the engine is under low load, it delivers more charge air than is required. In In this case, the four-way valve 5 leaves the. Air proportion required by engine 1 through line 6 to the engine, the remaining air will flow through the first branch line 7 to the turbine inlet 3 '. The control of the opening cross-sections of the four-way valve takes place mechanically or hydraulically via the override control 11.

In the event of a sudden increase in the amount of fuel (e.g. 8. when the driver "accelerates" in a motor vehicle) the controller 12 closes the first branch line 7, so that with the higher amount of fuel also a higher amount of charge air via line 6 and corresponding inlet valves in the cylinders of the engine 1 is available

If the engine load is very high or a specific fuel supply is exceeded by the controller 12 the second branch line 9 of the four-way valve 5 is opened so far that the excess Charge air can flow directly to the turbine outlet 10.

The exhaust gases coming from the engine 1 are in a known manner via the exhaust pipe 8 the Turbine inlet 3 'supplied and drive the turbine, possibly as described with excess charge air mixed

1 sheet of drawings

Claims (1)

Claim: Device for charging an internal combustion engine (Motor) by means of an exhaust gas turbocharger consisting of a turbine and a compressor, which so is designed that the compressor at full load of the engine in the lower speed range provides the required amount of charge air, and a four-way ι ο between the compressor outlet and the engine valve for setting the amount of charge air in the line leading to the engine, for opening or locking a first branch line, which leads to the turbine inlet in the bypass with respect to the engine, and a second branch line is connected for blowing off charge air, characterized in that that the four-way valve (5) with the regulator (12) of the fuel supply of the engine (1) over a forced control (11) is connected 20th