The invention resides in an arrangement for controlling an internal combustion engine with an electronic engine control unit, an injector for injecting fuel into the combustion chambers of the internal combustion engine, communication lines for the transmission of signals between the electronic engine control unit and the injectors and an intelligent electronic component which forms a construction unit with each injector.
In an internal combustion engine, the fuel injection begin and the fuel injection end are important for the quality of the combustion and the composition of the exhaust gas of the engine. In order to maintain the legal emission limits, these two characteristic values are generally controlled by an electronic engine control unit. In practice, an internal combustion engine with common rail fuel injection faces the problem that there is a time delay between the start of the energization of the injector, the needle lift of the injector and the actual injection begin. The same applies for the injection end.
For avoiding this problem, the particular properties of an injector may be recorded in a storage device which is arranged at the injector. During the operation, these parameters are then read by the electronic control unit into the control unit and the desired control values are adapted to the particular injector. WO 97/23717A shows such a system.
The system can be further improved by detecting the injection needle position inductively by changing the PWM (Pulse Width Modulator) signal via a travel sensor or an optoelectronic procedure. An opto-electronic solution is known from JP 58 206872. It includes a light sender, a light conductor and a receiver with a comparator. By way of the comparator, a change in the light intensity is evaluated. In this solution, the sender, the receiver and the comparator are arranged outside the injector. In addition to the additional expenditures for the cables, the penetrations of the light conductors through the injector housing are critical. Particularly in the high pressure area of the injector a faulty penetration may cause leakages and result in failure of the injector.
DE 102 29 414 A1 discloses an injector with an integrated optical needle stroke sensing arrangement. The stroke is determined by way of an optical sender-receiver unit, which detects and counts the number of light-dark changes. The accuracy of this arrangement is established via the number of the light-dark fields.
It is the object of the present invention to provide a reliable injector with an improved opto-electric position determination for the injector needle.
In an arrangement for controlling an internal combustion engine, comprising an electronic engine control unit, an injector with an injection needle for controlling the injecting of fuel into a combustion chamber of the engine and a connecting line extending between the electronic engine control unit and the injector for the transmission if signals therebetween, an intelligent electronic component is integrated into the injector including an electronic memory unit, a computation unit, an energy storage device forming an energy supply for the electronic component and also a measuring unit for opto-electronically detecting the movement of the fuel injector needle.
The measuring unit comprises a light sender, that is, at least one light conductor, a light receiver for determining the light modulation and a comparator.
During the injection pauses the energy storage device supplies the energy for the electronic unit. This permits a bi-directional communication of the electronic engine control unit with the injector and vice versa also in the injection pauses. Energy is transmitted from the electronic engine control unit to the energy storage device during fuel injection via the existing connecting lines while also the energy storage device is charged. Generally, the connecting lines are two-conductor lines (twisted pair). In addition, the integrated computation unit and the electronic storage unit permit a comparison of a momentary light intensity with a light intensity reference value, whereby the injector detects and compensates for, any changes on its own.
With the integration of the complete measuring and control unit into the injector, the opto-electronic evaluation of the injector needle position is EMV resistant. In addition, the injector needle geometry does not need to be changed nor need the service intervals for the injector be changed. Since no light-dark fields or similar are necessary for the determination of the injector needle position the resolution of the information is improved.
Overall, with the arrangement according to the invention the degree of integration is increased resulting in an improved operability and, at the same time, a greater reliability of the fuel injection control arrangement.
The invention will be described below on the basis of a particular embodiment with reference to the accompanying drawings.
The invention is described based at the same time, on
The arrangement operates as follows:
Via the communication line 3, the injector 2 is activated by the engine control unit 1 (injection begin) or deactivated (injection end). After activation of the injector 2, the injection needle 14 begins to move downwardly for example as shown in
Concurrently with the activation of the injector 2, energy is transferred from an end stage 10 of the electronic engine control unit 1 via the connecting lines 3 to the energy storage device 9. The energy storage device 9 is charged during the fuel injection while energy is supplied to the injector 2. Upon deactivation of the injector 9, the energy transfer is also terminated. During the injection pause, the electronic component 4 is supplied with energy from the energy storage device 9. In this way, a bi-directional communication can be maintained during the injection pause. For example, the electronic engine control unit 71 can read data out of the storage unit 6 and, if necessary, update the data stored in the storage unit 6 and it can cause the measuring unit 8 to perform an additional measurement.
The arrangement according to the invention as described can be modified in that, for the light communication, not two light conductors 12A and 12B but only one light conductor is used. Also, instead of the total or stray light reflection at the backside of the injector needle, the shadow image of the injector needle can be evaluated. For this procedure, the light conductors are oriented normal to the direction of movement of the injector needle. The connecting lines 3 can be supplemented by a third line (ground), so that the activation of the injector 2 and the energy transmission can be established independently. Then the electronic component 4 can be continuously applied with energy from the engine control unit.
The arrangement according to the invention as described above has the following advantages:
Number | Date | Country | Kind |
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10 2006 029 083.6 | Jun 2006 | DE | national |