GB2129872A

GB2129872A - Controlling timing in internal combustion engines

Info

Publication number: GB2129872A
Application number: GB08327150A
Authority: GB
Inventors: Godfrey Greeves; Paul Lakra
Original assignee: Lucas Industries Ltd
Current assignee: ZF International UK Ltd
Priority date: 1982-11-06
Filing date: 1983-10-11
Publication date: 1984-05-23
Also published as: GB8327150D0; GB2129872B

Abstract

The engine may be a reciprocating or rotating piston type and has a device 17 such as a pressure transducer for providing an indication of when combustion of fuel takes place in the engine. The signal provided by the device 17 during a combustion cycle is stored in a memory 26 and compared in a microprocessor 27 with a signal provided in a following cycle to provide a more positive indication of when in the cycle, combustion of fuel starts. A sample and hold circuit 19, an A/D converter 25 and the microprocessor 27 are controlled by a logic circuit 20 responsive to pulses from crankshaft position transducers 21, 23. The output signal of the microprocessor is compared with a desired ignition timing valve to control either the spark timing or timing of fuel injection. <IMAGE>

Description

SPECIFICATION Engine system This invention relates to an engine system including an engine of the reciprocating piston or rotary piston type, means for feeding fuel to the combustion chamber or chambers of the engine, means for varying the timing of ignition of fuel in the combustion chamber or chambers of the engine and means for sensing the combustion of fuel within the combustion chamber or chambers.

The correct timing of ignition of fuel within the combustion chamber or chambers of an engine of the type set forth is important in order to obtain satisfactory operation of the engine. Adjustment of the timing of ignition of the fuel is obtained in the case of a spark ignition engine, by adjustment of the instant at which the spark discharge at the sparking plug takes place. In the case of a compression ignition engine the adjustment is effected by altering the timing of delivery of fuel.

In order to obtain accurate control it is necessary to have a device which provides a signal of when ignition of the fuel takes place. Various devices have been proposed for this purpose. For example, it has been proposed to utilize light sensitive cells which observe the combustion of the fuel within the combustion chamber through a quartz or like window. It has also been proposed to utilize ionisation detectors which detect the flame front. Other forms of detector can be used for example pressure transducers which provide a signal indicative of a variation in the pressure within the combustion chamber due to combustion of fuel therein.

The signals provided by the devices are shaped in electrical circuits and compared with an engine position signal to determine whether or not adjustment of the timing is required. This determination may involve the use of additional engine data such as the speed of the engine and the load on the engine.

The signals provided by some of the devices whilst being relatively "sharp" i.e. exhibiting a substantial change when combustion of the fuel is detected, when the device is new, tend to deteriorate as the device is used. In some cases the deterioration takes place within a few minutes of engine operation. It therefore becomes more difficult to shape the signal with any degree of accuracy. Some of the devices for example the pressure transducer, do not in any case produce a "sharp" signal even when new.

The present invention is concerned with improving the signal which is derived from the device and which is used in the comparison determination as explained above. In most engines it is unlikely that the combustion characteristics in a combustion chamber will be exactly the same for each cycle of operation and the method employed is to store the signal from the device and to compare it with a signal obtained from the device in another cycle of operation, the difference between the two signals will be relatively sharp. In some instances however it may be desirable to artificially adjust the timing of the start of combustion by varying in the case of the compression ignition engine, the instant of fuel delivery to the engine or in the case of the spark ignition engine, the instant of spark discharge.

According to the invention in an engine system of the kind specified, said means for sensing the combustion of fuel comprises a device responsive to a condition within the combustion chamber, said condition occuring when combustion of fuel starts in the combustion chamber in use, said device providing an output signal, a memory circuit for storing said output signal and a comparison circuit for comparing the stored output signal obtained from said device with a signal produced in another cycle of operation of the combustion chamber, the output of said comparison circuit being utilized as the signal indicative of the commencement of combustion of fuel in the combustion chamber.

According to a further feature of the invention the system when the engine is a compression ignition engine, includes means for modulating the timing of delivery of fuel or when the engine is a spark ignition engine, means for modulating the ignition timing of the engine.

An example of an engine system in accordance with the invention will now be described with reference to the accompanying drawings, in which: Figure 1 is a block diagram of an engine system including a compression ignition engine; and Figure 2 is a block diagram of part of the system seen in Figure 1.

With reference to the drawings, there is shown at 10 an engine cylinder which contains a reciprocating piston coupled to a crankshaft the rotary axis of which is shown at 11 in Figure 2.

Mounted to direct fuel into the combustion chamber associated with the cylinder is a fuel injection nozzle 1 2 which is supplied with fuel in timed relationship with the engine by means of a fuel pump 13. The pump 13 includes electrical means for adjusting the timing of fuel delivery, the control signal for which is supplied by a comparator 14. The pump may for example be of the kind described in U.S. Patent 4292012. The comparator in order to provide the control signal compares two signals one of which is the desired ignition timing signal and the other of which is the actual ignition timing signal. The desired ignition timing signal is supplied by a circuit 1 5 which is supplied with signals indicative of engine speed and engine load, the latter being represented by the amount of fuel being supplied to the engine.

The circuit 1 5 contains stored information to enable it to provide the desired ignition timing signal for differing engine speeds and loads. The actual ignition timing signal is provided by a circuit 1 6 which will be described below, and which is supplied with a number of signals one of which is from a device 1 7 which provides a signal indicative of the onset of combustion.

Conveniently the device 1 7 is a pressure transducer responsive to the pressure within the cylinder 10. In use, the timing of delivery of fuel by the fuel pump is adjusted so that the start of ignition of fuel takes place at the desired time.

The engine may be of the spark ignition type and in this case the ignition system would correspond to the pump 13.

Turning now to Figure 2, the output signal of the transducer 17 which will be a varying analogue signal, is supplied by way of a processing stage 1 8 to a sample and hold circuit 1 9. The sample and hold circuit is controlled by a logic circuit 20 which receives a pulse input from a transducer 21 mounted adjacent a part 22 connected to the crankshaft of the engine so as to rotate therewith. The transducer 21 is responsive to marks on said part so that the logic circuit receives one pulse per revolution of the crankshaft. A further transducer 23 is mounted adjacent said part and is responsive to marks thereon so as to provide output pulses every 100 of rotation of the crankshaft.The pulses are supplied to a phase locked loop circuit 24 which is so arranged as to provide output pulses to the logic circuit 20 corresponding to 0.50 of crankshaft rotation. The output of the sample and hold circuit is supplied to an analogue/digitial converter 25 conveniently of 10 bit capacity, and the count value is stored in a Random Access Memory 26. The logic circuit is arranged so that the values of cylinder pressure are stored over the period from about 400 before top dead centre to 800 after top centre, this range being chosen so that it includes the start of ignition of the fuel and is broad enough to cope with expected timing variations. The block referenced 27 is a microprocessor from which the control signal is obtained.The memory 26 is also used to store a reference pressure waveform which may be a waveform obtained from the circuit 25 during an engine cycle in which ignition is arranged not to take place. In the case of a compression ignition engine this may be effected by preventing injection of fuel or in the case of a spark ignition engine by preventing spark discharge at the sparking plug.

The microprocessor is programmed to compare the actual waveform with the reference waveform and the difference between these two waveforms will show a substantial increase at the instant ignition of fuel takes place.

The reference pressure waveform may be a waveform obtained from the circuit 25 during a cycle of operation of the engine in which the timing of fuel delivery or the timing of the spark is deliberately retarded for example, by one or two degrees.

Alternatively the comparison may be arranged to take place between signals obtained during successive working cycles. This is possible because even when running at constant speed and load there will be a variation between successive cycles of the start of ignition of the fuel.

Claims

1. An engine system including an engine of the reciprocating or rotary piston type, means for feeding fuel to the combustion chamber or chambers of the engine, means for varying the timing of ignition of fuel in the combustion chamber or chambers and means for sensing the combustion of fuel comprising a device responsive to a condition within the combustion chamber, said condition occurring when combustion of fuel starts in the combustion chamber in use, said device providing an output signal, a memory circuit for storing said output signal and a comparison circuit for comparing the stored output signal obtained from said device with a signal produced in another cycle of operation of the combustion chamber, the output of said comparison circuit being utilized as the signal indicative of the commencement of combustion of fuel in the combustion chamber.

2. A system according to Claim 1 in which said device comprises a pressure transducer.

3. A system according to Claim 1 including a sample and hold circuit which receives the signal from said device, an analog/digital converter which converts the instantaneous value of the signal from said device into digital form, a random access memory in which said converted instantaneous signal values are stored, and a microprocessor for comparing the converted instantaneous signal values with reference signal values.

4. A system according to Claim 3 in which said reference signal values are instantaneous signal values obtained during a cycle of operation when combustion of fuel is prevented.

5. A system according to Claim 3 in which said reference signal values are instantaneous signal values obtained during a cycle of operation during which the timing of combustion of fuel is deliberately altered.

6. A system according to Claim 3 in which said reference signal values are instantaneous signal values obtained during a previous cycle of operation of the engine.

7. An engine system substantially as hereinbefore described with reference to the accompanying drawings.