Measuring and testing – Vehicle chassis – Steering
Reexamination Certificate
2001-05-15
2004-02-03
McCall, Eric S. (Department: 2855)
Measuring and testing
Vehicle chassis
Steering
Reexamination Certificate
active
06684687
ABSTRACT:
FIELD OF INVENTION
The present invention related to an arrangement for combustion engines for sensing the position of the engine crankshaft.
STATE OF THE ART
During the starting of a four-stroke engine it is important that ignition at the correct phase position for each cylinder takes place as soon as possible. Otto engines have conventionally incorporated a mechanical coupling between the engine's crankshaft and an ignition distributor which is driven by a camshaft, and it has analogously been conventional to provide diesel engines with a fuel injection pump mechanically connected to the engine's crankshaft. Engine manufacture has thus involved establishing a direct mechanical connection between the engine's crankshaft and the ignition initiating device. Certain more recent engines, both Otto engines and diesel engines, have no such direct mechanical connection for determining the ignition but use instead other means for determining which phase position the engine is in and when ignition is to be initiated in each cylinder.
Various methods have been indicated for minimising the starting time, including the “trial and error” principle whereby a certain phase position is assumed for each cylinder, but in systems of that kind it takes a certain number of crankshaft revolutions to make sure that the assumption was correct.
Another arrangement of the kind mentioned in the introduction is known from DE-A1-42 30 616. That known arrangement uses a first sensor to read the reference marks on a sensor disc associated with the engine's flywheel, while a second sensor is used to read a reference mark on a sensor disc associated with the engine's camshaft. Switching the engine off results in the last angular position measured being stored in a non-volatile memory. The reason for that arrangement is a desire to be able immediately upon starting to relate the injection into each cylinder to the correct cylinder sequence and correct phase position.
However, that known arrangement also entails certain problems, one of which is that a camshaft sensor involves great reading uncertainty because the relatively small sensor disc generates a small number of pulses per revolution, only one pulse per camshaft revolution in the case of the known arrangement. Moreover, that system, if the non-volatile memory fails or there is engine movement after the engine has been switched off, results in a relatively long starting procedure because in such situations relatively long engine rotation, i.e. in principle according to the first technique mentioned, is required for determining the correct crankshaft position, leading to delayed engine starting. Furthermore, the principle of using a crankshaft sensor and a camshaft sensor entails reliability problems as regards the operation of the engine, since in principle only one sensor, the crankshaft sensor, does in practice control the injection into the engine's cylinders. Mechanical or electrical failure of this sensor causes problems for operating the diesel engine.
OBJECT AND CHARACTERISTICS OF THE INVENTION
One object of the present invention is to eliminate the problems of the state of the art and indicate a solution which results in better reliability of both starting and continuous operation of the engine and enables starting of the engine to be achieved more quickly.
This object is achieved in an arrangement of the aforesaid kind by means of two independent crankshaft sensors which sense the markings on the shaft and particularly on a flywheel on the shaft, wherein the sensors are mutually displaced around the shaft relative to the midpoints of the respective rotational position markings. During crankshaft rotation, the rotation direction can be determined by comparing the sensor signal sequences from the two sensors.
Further, there is a gap in the markings around the shaft with no markings which, when sensed, enables detection of the rotation position of the shaft.
Both of the sensors being crankshaft sensors results in doubled operating reliability and enhances the possibility of quickly determining the engine's position, particularly in the event of an abrupt stop and continuing crankshaft rotation thereafter or rotation of the crankshaft in different directions. The displacement indicated thus makes it easy for the control system to establish very quickly the direction in which the engine is rotating.
As a further feature of the invention, the markings are uniformly spaced around the shaft. They may be recesses in a flywheel on the shaft.
The rotational positions of the sensors are mutually displaced other than at 0, or one half the length of a gap between two markings, or an even multiple of the gap length, and particularly the displacement is 20-30% and preferably about 25% of the distance between adjacent rotational position markings.
A non-volatile memory stores the rotational position of the crankshaft when the engine is switched off, and the memory is to be used when the engine is restarted.
According to one advantageous embodiment, the two sensors (S
1
,S
2
) both cooperate with the same group of rotational position markings (r). This results in simplified and less expensive assembly of an arrangement according to the invention.
If each group of rotational position markings (r) exhibits a rotational position marking gap (L), the result is an appropriate possibility of detecting the rotational position of the crankshaft.
Arranging the two sensors at, in the direction of rotation, an angular displacement which is greater than the synchronisation gap also creates the possibility of measuring the flywheel position with great accuracy throughout each revolution. Using one sensor when the synchronising gap passes the other sensor and is therefore “blind” eliminates the disadvantages arising from the system being “blind” during the time when the gap passes the sensor, and vice versa for the other sensor.
It is advantageous for the control system to include a non-volatile memory arranged to store the rotational position of the crankshaft when the engine is switched off, with a view to using the same position when the engine is restarted. In normal circumstances this means that the engine starting time can be reduced to a minimum.
It is also advantageous for the memory to be arranged to be continuously updated during engine operation, in order to ensure that the correct cylinder position is constantly updated.
In cases where the rotational position markings (r) consist of recesses in the engine's flywheel (H), a conventional simple arrangement of rotational position markings may be used in conjunction with the invention.
The feature whereby the mutual rotational position displacement of the sensors differs from 0 and from A/2 and from even multiples of A, where A is the distance between two rotational position markings, results in an advantageous and practically feasible arrangement of the mutual positions of the sensors relative to one another.
It is at the same time advantageous that the mutual rotational position displacement of the sensors be between about 20 and 30%, advantageously about 25%, of the distance between two rotational position markings in order to create the optimum possibility of excellent signal resolution.
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McCall Eric S.
Scania CV AB ((publ)
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