DE102009000061A1 - Method for reducing magnitude tolerance of reagent introduced in exhaust-area of internal combustion engine by dosing device, involves controlling dosing pump dependent on characteristic signal of mass flow by reagent lines - Google Patents

Abstract

The method involves controlling the dosing pump (102) dependent on the characteristic signal of a mass flow by the reagent line. The signal is determined with the help of a flow meter, and the signal characterizes the mass flow. The flow meter is arranged in the reagent lines. A control period of the dosing pump is varied depending on the wrong dosing amount. Independent claims are also included for the following: (1) a device for operating a dosing device for dosing a reagent introduced in an exhaust-area of an internal combustion engine by a nozzle; (2) a control program for the execution of the method; and (3) a control program product with a program code stored on a machine-readable medium for the execution of the method.

Description

The The invention relates to a method for reducing quantity tolerances one in the exhaust region of an internal combustion engine by means of a Dosing device injected reagent according to the preamble of claim 1 and an apparatus for operating a metering device according to the preamble of claim 5.

object The invention also relates to a control or computer program and a Control or computer program with a program code written on one machine-readable carrier is stored to carry of the procedure.

State of the art

From the DE 199 03 439 A1 For example, a method and a device for operating an internal combustion engine have become known, in whose exhaust gas area an SCR catalytic converter (selective catalytic reduction) is arranged, which reduces the nitrogen oxides contained in the exhaust gas of the internal combustion engine to nitrogen with a reagent.

From the DE 10 2004 048 075 A1 a dosing system for pollutant reduction in automotive exhaust gases has become known, in particular for the reduction of nitrogen oxides by pollutant-reducing fluids are introduced into the exhaust system of the motor vehicle. In this case, a metering system is proposed, which has, inter alia, a metering pump and at least one self-opening nozzle for the injection of fluid media in an exhaust system. This dosing system dispenses with diaphragm pumps and dosing valves.

When Reagent comes here, for example, the reducing agent ammonia used, which consists of a urea-water solution or from a urea-formic acid-water solution can be obtained as a precursor of the reagent. The dosage of the reagent or precursor must be very precise respectively. Too low a dosage causes nitrogen oxides can not be sufficiently reduced in the SCR catalyst. A Too high a dosage has a so-called reagent slip for Result, on the one hand to an unnecessarily high reagent consumption and, on the other hand, depending on the nature the reagent to an unpleasant odor can lead.

A essential prerequisite for a reduction as far as possible of nitrogen oxides in the exhaust stream, in particular a diesel engine a precise dosage of the reducing agent, d. H. the liquid Urea-water solution. There must be deviations the actually injected actual amount of the reducing agent solution be detected by the desired target quantity and deviations the target quantity of the actual quantity can be corrected if necessary.

Disclosure of the invention

These Task is solved by a method of reduction of quantity tolerances of a in the exhaust region of an internal combustion engine by means of a metering reagent to be introduced with the features of claim 1 and by a metering device with the features of claim 5.

The basic idea and core of the invention is the mass flow between the Dosing pump and the nozzle flows to capture evaluate in the controller and the pump dependent to control a signal characterizing the mass flow. The control of the pump is done as it were Response to the measured mass flow. This makes it possible to change the pump power so and adjust that one desired mass flow in the reagent line flows and so that a desired amount of reagent in the exhaust tract the internal combustion engine is injected.

advantageous Further developments and refinements of the invention Method are the subject of the back to claim 1 Subclaims 2 to 4.

in principle the mass flow can be detected in many different ways and be determined. So it would be conceivable in principle, Control parameters of the pump to capture and evaluate, because the Mass flow generated by the pump hangs last End of, for example, the pump performance as well as geometric Properties of the pipe system.

Of the Mass flow is preferably measured by means of a flowmeter, somewhere in the piping between a tank and the injector is arranged.

at A first embodiment provides that the flow meter is arranged in front of the metering pump. This arrangement has the big one Advantage on that pressure waves of the pump mass flow detection do not disturb much.

Purely In principle, a line can be arranged between pump and nozzle be. But it can also be provided that the pump and the Nozzle one unit and so a pump-nozzle unit to form the injection of the dosing.

A Another embodiment provides, the mass flow means a flow meter in the line system between the pump and the injection nozzle is arranged.

A Design of the method provides that the mass flow characterizing signal over a predeterminable time interval to integrate or to sum, from this the metered amount of reagent to determine with a set amount, for example, in a memory the control device is stored, compare and deviation the target quantity of the actual quantity, d. H. detected or measured Quantity to determine a misdosing amount, based on which the metering pump is regulated so that the deviation of the target and actual amount minimized becomes. This allows an adjustment of the dosed Achieve reducing agent amount and in particular, for example due to manufacturing tolerances of the individual components, so the Nozzle, the metering pump, the suction pipe etc. or due over-life aging or compensate for underdoses of the reducing agent. It will thus effectively over- or underdosing of the reducing agent prevents and thus adverse changes in emissions the combustion gases of the vehicle.

Very Advantageously, the metering pump is driven pulsed, wherein the Actuation periods and / or duration of the metering pump dependent be minimized by the shortfall so that the shortage reduced becomes.

Further advantageous developments and refinements of the invention Method and apparatus will become apparent from the following Description and the drawing of an embodiment.

drawing

In The figure is schematically a metering device and a device for operating such a metering device, which is of the invention Use, presented.

Description of the embodiments

In The figure schematically shows a device for operating a Dosing system and such a dosing system shown schematically.

The dosing system includes a urea water solution tank 100 , a dosing pump 102 and a pressure-controlled nozzle 103 injecting the urea-water solution into the exhaust pipe (not shown) immediately upstream of an SCR catalyst (not shown). It should be noted at this point that it can also be provided that the metering pump 102 and the nozzle 103 form a unit, so a pump-nozzle unit. In this case, the line is omitted 101 or is the line 101 extremely short and arranged within the pump-nozzle unit. The urea water solution tank 100 , the dosing pump 102 and the metering valve or nozzle 103 are via a reagent pressure line 101 connected with each other. The dosing pump 102 promotes the reagent (the urea-water solution) under pressure into the reagent pressure line 101 , The dosing pump 102 is through an electronic control unit 200 driven. The control takes place periodically, ie pulsed. The control unit 200 calculates the required control distances of the dosing pump 102 and determines the dosage amounts. Due to manufacturing tolerances of the individual components, so the nozzle 103 , the dosing pump 102 , a suction pipe 105 upstream of the metering pump 102 , the reagent pressure line 101 and / or due to aging over the life of these components and the like, errors occur in the reagent metering. These errors are expressed in overdoses and underdoses of the reducing agent or reagent, ie the urea-water solution. Such a misdosing in turn leads to a violation of the emission limits.

With the aid of the method described below, it is possible to detect deviations between the required target quantities and the metered actual quantities and to take them into account via a corresponding control in the control unit, in particular via a control implemented by a computer program in the control unit, and thus the Control distances of the dosing pump 102 and thus to correct the dosing quantities.

The basic idea of the invention is the mass flow of the reagent in the reagent pressure line 101 for example, between metering pump 102 and nozzle 103 It should be noted at this point that the mass flow in principle also before the metering pump 102 can be detected. This has the great advantage of having pressure waves from the pump 102 do not significantly disturb the mass flow detection. Detecting means either to measure or to determine in another way, for example due to control parameters of the metering pump 102 , In the embodiment shown in the figure, the mass flow through a flow sensor 300 measured. The measured by this, the mass flow characterizing signal is the control unit 200 supplied and evaluated there with specially implemented software. In the control unit 200 In another software function, the mass flow is integrated or set up over a predefinable time interval summed and determined in this way the metered amount. Following this, the current incorrect dosage amount is determined by a comparison between a predetermined desired and the actual quantity determined in this way, and the control of the metering pump is dependent on this incorrect dosage amount 102 regulated so that the deviation from the target to actual amount disappears or is minimized.

• 1. Mengentoleranzen können über die gesamte Lebensdauer der Dosiervorrichtung reduziert werden. Eine Emissionsgrenzenverletzung wird auf diese Weise sehr effektiv vermieden.
• 2. Auf diese Weise können die Forderungen an Mengentoleranzen einzelner Bauteile reduziert werden, d. h. es können Bauteile mit größeren Toleranzen verbaut werden, da das vorstehend beschriebene Verfahren und die Vorrichtung auch größere Systemtoleranzen zu korrigieren erlaubt. Dies führt zu einer deutlichen Bauteileinsparung.

This method has the following advantages:

• 1. Quantity tolerances can be reduced over the entire life of the metering device. An emission limit violation is avoided very effectively in this way.
• 2. In this way, the demands on quantity tolerances of individual components can be reduced, ie, components can be installed with greater tolerances, since the method described above and the device also allows to correct larger system tolerances. This leads to a significant component savings.

Drifting of the metered amount over the time can be compensated by the method described above, not only due to component tolerances or aging phenomena of the components, but also due to other influences, eg. B. environmental influences over shorter time intervals. On the basis of the determined deviations of the target / actual quantity, the control period of the metering pump is controlled by a control 102 adjusted so that the deviations are reduced and so the actual amount is adjusted to the desired amount.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19903439 A1 [0003]
• DE 102004048075 A1 [0004]

Claims (10)

Method for reducing quantity tolerances of a reagent to be introduced into the exhaust gas region of an internal combustion engine by means of a metering device, wherein the metering device comprises at least one metering pump ( 102 ) and a nozzle ( 103 ), characterized in that the metering pump ( 102 ) depending on a mass flow through a reagent line ( 101 . 105 ) characterizing signal is driven. A method according to claim 1, characterized in that the mass flow characterizing signal by means of a in the reagent line ( 101 . 105 ) arranged flow meter ( 300 ) is determined. A method according to claim 1 or 2, characterized in that the mass flow characterizing signal is integrated over a predeterminable time interval, from which the metered reagent quantity is determined and compared with a desired amount and deviation of the desired amount of the actual amount a Fehldosiermenge is determined on the basis thereof the dosing pump ( 102 ) is controlled so that the deviation of the set and actual amount is minimized. Method according to Claim 3, characterized in that a drive period of the metering pump ( 102 ) is varied depending on the incorrect dosage amount so that the shortage is minimized. Device for operating a metering device for metering one into the exhaust gas region of an internal combustion engine by means of a nozzle ( 103 ) to be introduced, wherein the metering device at least one metering pump ( 102 ) and one downstream of the metering pump ( 102 ) arranged nozzle, characterized in that in a reagent line ( 101 . 105 ) at least one flow meter ( 300 ) is arranged, the mass flow characterizing signal in a control device ( 200 ) is compared with a predefinable setpoint and in case of deviation of the actual value of the setpoint, a control of the metering pump ( 102 ) by the control device ( 200 ) is performed such that the deviation is minimized. Apparatus according to claim 5, characterized in that the at least one flow meter ( 300 ) in the reagent line ( 105 ) in front of the dosing pump ( 102 ) is arranged. Apparatus according to claim 5 or 6, characterized that metering pump and nozzle form a structural unit. Apparatus according to claim 5, characterized in that the at least one flow meter ( 300 ) in the reagent line ( 101 . 105 ) between dosing pump ( 102 ) and nozzle ( 103 ) is arranged. Control program, all the steps of a procedure according to one of claims 1 to 4 executes when it runs in a controller. Control program product with one on a machine readable Carrier stored program code to carry out of the method according to one of claims 1 to 4, when the Program is executed in a control unit.