DE3218828C2 - Method and device for carrying out the method for controlling operating ranges of a spark-ignition internal combustion engine - Google Patents

Abstract

A method and a device for carrying out the method for controlling operating ranges of a spark-ignition internal combustion engine are proposed, in which the combustion mixture provided by a mixture generator is reduced quantitatively by a controlled addition of exhaust gas, so that various tasks in engine technology, for example idle speed control, overrun fuel cut-off, reduction of the Throttle values etc. are met.

Description

The invention relates to a method and a device for performing the control method of operating ranges of a spark-ignition internal combustion engine in connection with one or more Operating parameters, in particular with an electronic control unit, and one bypassing the combustion chamber Exhaust gas recirculation in the. Intake tract with an exhaust gas recirculation valve.

Such methods or devices are used in relation to compliance with exhaust gas regulations, d. H. for reducing mainly the nitrogen oxides in the exhaust gas.

From DE-OS 24 51 470 a method and an apparatus for performing is known in which to Production of an ignitable combustion mixture, depending on the load, hot exhaust gases are fed to the combustion mixture. It is also known that the exhaust gas recirculation by a computer device with memory for the purpose of optimization to use the power output and pollutant reduction in the exhaust gas, as for example in the DE-OS No. 27 51 051 disclosed, in which, however, when operating at high altitude, safety is given priority over high performance the pollutant reduction is granted.

From DE-OS 28 50 931 an exhaust gas recirculation system is known which has a predetermined task Maintaining a balance between the formation of nitrogen oxides and the drivability of a vehicle should solve, whereby a memory with a look-up table of optimal values of the suction pressure as a function of on the one hand the Engine speed and on the other hand the throttle position is preprogrammed.

These methods and devices are only required for part-load operation of the engine, ie in idling _v ϊ and full-load operation, there is no admixture of exhaust gas to the combustion mixture.

j For an exhaust gas recirculation when idling or in other operating ranges to achieve the from today

Fuel savings - which is known to be achieved by lowering idle speed, fuel

50 shutdown in overrun and special measures for a cold start and idle run in conjunction with a

Starting device is achieved, which are associated with a high cost and predominantly by Changes or regulation of the filling can be achieved - there are no suggestions in the publications.

The invention is therefore based on the object of providing the methods and devices mentioned at the outset in this way change that an exhaust gas recirculation to meet the exhaust gas regulations and in addition a fuel mixture charge control for the operating ranges of the internal combustion engine between cold start and overrun to achieve a fuel saving can be controlled.

This object is achieved according to the invention in that the from one to one for a cold start sufficient minimum opening gap fixed mixture generator the amount of combustion mixture provided to the engine is reduced by the addition of exhaust gas, as it is for the operating ranges between cold start and Thrust is necessary. Further advantageous measures with regard to the method and the device for Implementation of the method are specified in the subclaims.

The advantages achieved with the invention reside in the elimination of those for the filling regulation or control so far :? required facilities, such as throttle valve actuators as speed controllers, thrust valves for ventilation of the

Intake tract and solenoid valves for various control tasks.

t> 5 Another advantage is the fuel-saving reduction in throttle losses in the quantity control

t due to the reduction in suction pressure, the ignition that occurs at higher compression pressure and the good mixture preparation in the cold phase of engine operation due to the admixture of hot exhaust gases.
As a result of the overall price reduction, the use of an exhaust gas recirculation valve is basically also possible for smaller ones

Engines are possible, which up to now for cost reasons other measures for the fulfillment of the exhaust gas regulations, For example, the reduction in efficiency due to low compression, retarded ignition, etc., required, so that thereby the fulfillment of the exhaust gas regulations and a fuel-efficient operation of the engines with a higher efficiency have become possible.

An embodiment of the invention is shown schematically in the drawings and is described below described. It shows

F i g. 1 an internal combustion engine with exhaust gas recirculation line,

F i g. 2 an exhaust gas recirculation valve in section.

F i g. 1 schematically shows an internal combustion engine 1 with an intake duct 2, with a mixture generator 3 (Carburettor or injection system for mixture-compressing internal combustion engines), which can be operated at will Has throttle valve 4, and a section of an exhaust duct 5.

The exhaust gas duct 5 is via an exhaust gas recirculation line 6, bypassing the combustion chamber of the internal combustion engine connected to the intake duct 2 downstream of the mixture generator 3, with the exhaust gas recirculation line 6 an exhaust gas recirculation valve 7 is arranged, which is a pneumatic actuation device that operates on the intake pressure the internal combustion engine responds, and includes a 3/2-way valve that responds to signals from an electronic Control device 8, which are formed from various engine operating savers, and the operating switch 9 of the internal combustion engine responds, so that a control line 24, not shown, to the intake duct 2 is atmospheric can be ventilated to obtain certain exhaust valve positions.

F i g. 2 shows a section through an exhaust gas recirculation valve 7, with which the various tasks by means of the Method can be carried out regardless of whether the internal combustion engine has an electronic Control device 8 is equipped or not.

The exhaust gas recirculation valve 7 consists of a housing 10 with a feed connection 11 and a Discharge connection 12 for the exhaust gas recirculation line 6, both of which with a chamber 13 in the housing 10 in Are connected, the junctions of which form a valve seat 14 and a throttle point 15, which with a valve cone 16 of a valve stem 17 and the flow cross-section of the exhaust gas recirculation line 6 controls. The valve stem 17 is connected to a diaphragm 18 via a diaphragm plate 26 and received in a guide 19 so as to be axially movable.

The membrane 18 is placed against the housing 10 by means of a cover 20 and seals a recess 21 in the housing 10, which is connected to the atmosphere via an opening 22, against a pressure chamber 23 in the Cover 20, which has a connection for the control line 24. The pressure chamber 23 has a spring 25, which is under tension between the cover 20 and the diaphragm plate 26, and a second spring 27, the is under tension between the cover 20 and a stop disk 28 which is supported on an edge 29 and is arranged to be movable against the force of the spring 27. A free rotation 30 on the valve stem 17 forms a Cylinder shoulder 31, which also cooperates with the throttle point 15, d. h .. there are cross-sectional determinations running in the opposite direction for the exhaust gas recirculation line 6 via the adjustment path of the pneumatic actuating device or the valve stem 17.

With the in F i g. The engine system shown in FIG. 1 is the method according to the invention for controlling operation areas feasible, so that in terms of economy, emission control and drivability an optimum is achieved. The equipment of the system with an electronic control unit 8 is not mandatory, but advantageous. The throttle valve 4 of the mixture generator 3 - carburetor or injection device for mixture-compressing internal combustion engines - is permanently set to a minimum opening gap with which a Cold start can be carried out in conjunction with a starting system, not shown. The launch system does not have one Influence on the throttle valve position more, it only has an influence on the mixture composition. if the engine starts, the intake pressure of the engine drops, so that the pneumatic actuator over the control line 24 is acted upon by the suction pressure, against the forces of the springs 25, 27 the valve stem 17 in moves a position to the throttle point 15, in which the valve cone 16 the flow cross-section in the throttle point 15 controlled in such a way that a larger cross-sectional area is released as the idle suction pressure falls becomes and with increasing a smaller one. As is known, the change in idle speed is the change in intake pressure proportional, so that an intake pressure control corresponds to a speed control, which by the Recirculation amount of exhaust gas can be determined. The exhaust gas recirculation causes an intake pressure change and a Division of the cylinder charge in fuel mixture and exhaust gas components, so that a charge control for the There is fuel mixture proportions.

For the cold idling, it is advantageous to recirculate the hot exhaust gases, as it ensures good fuel mixture preparation causes. As the engine temperature rises, the fuel mixture is reduced by the starting system and the amount of exhaust gas recirculation increases until a stable warm idle speed! set Has. If the engine is put into load operation by opening the throttle valve 4, the intake pressure increases, so that the springs 25, 27 the valve stem 17 against the reduced force of the diaphragm 18 as an actuating device move until the spring 27 comes to rest on the stop disk 28 on the edge 29, so that the adjustment is only made by the spring 25, which has an identifier that is necessary for the load range, the valve cone 16 cooperating with the valve seat 14. The following relationship arises between the operating ranges, indicated by the intake pressure, and the control of the exhaust gas pressure flow, caused by changing the flow cross-section of the exhaust gas recirculation line through the exhaust gas recirculation valve.

Operating condition of the engine

Exhaust gas recirculation

begin

Cold idle

Warm idle

Transition from idling to partial load

Partial load

Full load

thrust

Transition from idling to shutdown

no

regulated with motor temperature rising

decreased - none - maximum maximum

no

maximum

decreased - maximum - none

If the engine system is equipped with control unit 8, the operating parameters speed, temperature, Intake pressure, load position of the throttle valve, exhaust gas composition, etc. detected and a control signal are processed, which is connected to the 3/2-way valve of the exhaust gas recirculation valve 7, which the Control line 24 blocks or ventilates, so that a correspondingly identical exhaust gas recirculation is achieved and the Suction pressure is only used as an adjustment force for the valve adjustment. The exhaust gas recirculation valve 7 can then be set up much more simply. It can also connect to the ignition system, the Fuel metering system and an air supply valve in the intake pipe, etc. are made so that the controllable operating ranges can be detected by means of the filling control.

1 sheet of drawings

Claims (6)

Patent claims: 1. Method for controlling operating ranges of a spark-ignition internal combustion engine in connection with one or more operating parameters, in particular with an electronic control unit, and exhaust gas recirculation bypassing the combustion chamber into the intake tract with an exhaust gas recirculation valve, characterized in that from one to a minimum opening gap sufficient for a cold start Fixed mixture generator, the amount of combustion mixture made available to the engine by adding exhaust gas is reduced to the extent necessary for the operating ranges between cold start and overrun is. 2. The method according to claim 1, characterized in that in the zero position of the throttle lever and one above The specified engine speed lying around the idle speed is recirculated a maximum possible amount of exhaust gas is. 3. The method according to claim 1, characterized in that when switched off but still running Internal combustion engine, the maximum possible amount of exhaust gas is fed back until the engine comes to a standstill. 4. The method according to claim 1, characterized in that one for one above the idle speed Lying engine speed, the amount of combustion mixture provided is reduced by exhaust gas recirculation, as is necessary for a given idling speed. 5. The method according to claim 1, characterized in that the maximum possible exhaust gas recirculation is limited by a specified and maintained mixture temperature. 6. Apparatus for performing the method according to claim 1 in conjunction with a one arbitrary A mixture former having an actuatable throttle valve, characterized in that the throttle valve (4) is permanently set to a minimum opening gap sufficient for a cold start and a known one Exhaust gas recirculation valve (7) in the course of an exhaust gas recirculation line (6) to the intake tract (2) of the internal combustion engine responds to the suction pressure and with falling pressure compared to the operating suction pressure when idling releases a correspondingly enlarged flow area.