KR20150129044A - Method and system for balancing the cylinders of a diesel engine - Google Patents

Abstract

In the method of balancing the cylinder (3) of the diesel engine (2), the start moment of the combustion process in each cylinder (3) is specified and the prescribed start moment of the combustion process is compared with a predetermined set value. If the prescribed start moment of the combustion process differs from the set value, the start moment of fuel injection into the cylinder 3 is changed. Then, the exhaust gas temperature of each cylinder is measured, and the duration of fuel injection into the cylinder 3 is changed based on the exhaust gas temperature so as to equalize the outputs produced by the cylinders.

Description

METHOD AND SYSTEM FOR BALANCING THE CYLINDERS OF A DIESEL ENGINE.

The present invention relates to a method for balancing cylinders of a diesel engine. The present invention also relates to a system for balancing the cylinders of a diesel engine.

In a piston engine, there is a difference in power generation between the various cylinders of the engine. The difference is due, for example, to a change in the operation of the part that occurs during the service life of the part as a result of wear of the part of the injection system. The difference in the cylinder output adversely affects engine operation by, for example, increasing the engine vibration as well as the load on the crankshaft and other components. Therefore, efforts have been made to balance the cylinders, that is, to keep the combustion process as similar as possible between the cylinders. The problem associated with the output differential between the cylinders often arises in diesel engines with a common pressure supply system where heavy fuel oil is used as fuel.

It is an object of the present invention to provide an improved solution for balancing cylinder loading in a diesel engine.

The object of the present invention is achieved mainly as described in claims 1 and 11. In the present invention, the start moment of the combustion process in each cylinder is defined, and the specified start moment of the combustion process is compared with a predetermined set value. If the prescribed start moment of the combustion process differs from the set value, the start moment of fuel injection is changed. Then, the exhaust gas temperature of each cylinder is measured, and the duration of the fuel injection to the cylinder is changed based on the exhaust gas temperature to equalize the outputs generated by the cylinders.

The present invention is characterized in that it defines the start moment of the combustion process in each cylinder 3, compares the prescribed starting moment of the combustion process with a predetermined set point, and if the prescribed starting moment of the combustion process differs from the set value, A method for balancing a cylinder (3) of a diesel engine (2), comprising varying a start moment of fuel injection into a cylinder (3) based on a defined start moment of a combustion process, characterized in that a torsional vibration Of the fuel injection into the cylinder (3) based on the torsional oscillation of the crankshaft, so as to equalize the outputs produced by the cylinder (3) after the start of the fuel injection (3) of the diesel engine (2).

The present invention is characterized in that the exhaust gas temperature 18 of each cylinder is measured and the duration of the fuel injection is changed into the cylinder 3 based on the exhaust gas temperature in order to make the outputs produced by the cylinder 3 equal. (3) of the diesel engine (2).

The present invention prolongs the duration of the cylinder-specific fuel injection when the exhaust gas temperature is lower than the average value of the measured exhaust gas temperatures, and when the exhaust gas temperature is higher than the average value of the measured exhaust gas temperatures (3) of the diesel engine (2).

The present invention can provide a method of balancing the cylinder (3) of a diesel engine (2), characterized in that the duration of fuel injection into the cylinder (3) is varied to reach the desired exhaust gas temperature.

The present invention can provide a method of balancing the cylinder 3 of the diesel engine 2, which uses an average value or a predetermined value of the measured exhaust gas temperature as a set value.

The present invention can provide a method of balancing the cylinder (3) of a diesel engine (2), characterized in that the duration of fuel injection into the cylinder (3) is changed based on the exhaust gas temperature and the torsional vibration.

The present invention can estimate the accuracy of the measurement of the exhaust gas temperature 18 and determine the change in the duration of the fuel injection into the cylinder 3 based on the torsional vibration if the measurement of the exhaust gas temperature 18 of the cylinder is not effective The method comprising the steps of: (a) determining whether the cylinder 3 of the diesel engine 2 is in a normal state or not.

The present invention is based on the finding that the change in the duration of the fuel injection into the cylinder 3 based on the torsional vibration, if the exhaust gas temperature 18 of the cylinder deviates from the predetermined temperature value or the average value of the exhaust gas temperature of the cylinder 3 Of the cylinder (3) of the diesel engine (2).

The present invention is characterized in that the position (15, 16) of the cylinder pressure in each cylinder (3) is measured and the instant of start of the combustion process is defined based on the measurement of the position of the cylinder pressure. (3). ≪ / RTI >

The present invention provides a method of balancing a cylinder 3 of a diesel engine 2, characterized in that the cylinder pressure is measured by a knock sensor, a strain gauge or a pressure sensor 15 provided with the cylinder 3 can do.

The present invention can provide a method of balancing the cylinder (3) of a diesel engine (2), characterized in that it measures the torsional vibration of the engine shaft axis and defines the start moment of the combustion process based on the torsional vibration measurement.

The present invention can be used to compare the prescribed starting moment of the combustion process with the set point to define the start moment of the combustion process in each cylinder 3 and to only determine the start moment of the combustion process A system (1) for balancing cylinders of a diesel engine (2), comprising a control unit (14) arranged to change a start moment of fuel injection into a cylinder (3) Characterized in that the system (1) comprises means (16) for measuring the torsional vibration of the crankshaft and the control unit (14) is adapted to control the starting moment of the fuel injection, (2) is arranged to change the duration of fuel injection into the cylinder (3) based on the torsional vibration. It is possible to provide the system (1) for catching.

The present invention is characterized in that the system is installed with each cylinder (3) for measuring the exhaust gas temperature of the cylinder Wherein the control unit (14) comprises a temperature sensor (18), which, based on the exhaust gas temperature measured by the temperature sensor (18), makes the fuel injection into the cylinder The system 1 for balancing the cylinders of the diesel engine 2 can be provided.

According to the present invention, the control unit extends the duration of the cylinder-by-cylinder fuel injection when the exhaust gas temperature is lower than the average value of the measured exhaust gas temperatures, and shortens the exhaust gas temperature when the exhaust gas temperature is higher than the average value of the measured exhaust gas temperatures The system (1) for balancing the cylinder of the diesel engine (2) is provided.

The invention is characterized in that the control unit (14) is arranged to vary the duration of fuel injection so as to reach a desired set point of the exhaust gas temperature of the cylinder (3) The system 1 can be provided.

The present invention can provide a system (1) for balancing cylinders of a diesel engine (2), wherein the desired set value is an average value of the exhaust gas temperature or a predetermined value.

The present invention relates to a system for measuring the torsional vibration of a crankshaft, comprising a means (16) for measuring the torsional vibration of the crankshaft, the control unit (14) The system 1 for balancing the cylinder of the diesel engine 2 can be provided.

 The present invention can be used to evaluate the accuracy of the measurement of the exhaust gas temperature 18 and to determine the duration of fuel injection into the cylinder 3 based on the torsional vibration if the measurement 18 of the exhaust gas temperature 18 of the cylinder is not valid (1) for balancing the cylinder of the diesel engine (2), characterized in that it further comprises means for defining a variation of the cylinder (1).

The present invention is characterized in that the control unit 14 controls the amount of exhaust gas flowing into the cylinder 3 based on the torsional vibration if the exhaust gas temperature 18 of the cylinder deviates from the predetermined temperature value or the average value of the exhaust gas temperature of the cylinder 3 (1) for balancing cylinders of a diesel engine (2), characterized in that the system (1) is arranged to vary the duration of fuel injection of the diesel engine (2).

The present invention relates to a system (1) comprising means (15,16) for measuring the position of a cylinder pressure in each cylinder (3), said control unit (14) , And the start time of the combustion process in the cylinder (3). The system (1) for balancing the cylinder of the diesel engine (2) can be provided.

The invention relates to a system for balancing the cylinder of a diesel engine (2), characterized in that the means for measuring the position of the cylinder pressure comprises a knock sensor, strain gauge or pressure sensor (15) (1).

The invention relates to a system (1) for balancing cylinders of a diesel engine (2), characterized in that the means for measuring the position of the cylinder pressure comprises an angle sensor (16) for measuring the angle of rotation of the engine crankshaft .

Significant advantages are achieved with the present invention. The output difference between the cylinders is balanced by individually adjusting both the instant of the start of the combustion process and the duration of the fuel injection into each cylinder. The output difference between the cylinders due to wear of the components of the injection system can be compensated and thus the operation of the cylinder can be kept optimal during the entire service life of the part. In addition, loading changes caused by changes in the quality of the fuel or other types of fuels can be compensated, thereby having as little effect as possible on engine operation. The system can also be used for maintenance of components of a fuel injection system, such as an injector. The control unit of the system can be set to monitor changes in the set value of the part, whereby if the set value exceeds a threshold value indicating the necessity to replace the part, the control unit informs the part replacement request. In addition, less expensive injectors can be used in the injection system, since it is not necessary to find individual injector trim values for each common pressure supply system.

Fig. 1 shows an example of a system 1 according to the invention for balancing a cylinder 3 of a diesel engine.

Hereinafter, the present invention will be described in more detail, by way of example, with reference to the accompanying drawings, which schematically illustrate a system according to the present invention.

The figure shows an example of a system 1 according to the invention for balancing a cylinder 3 of a diesel engine. The system (1) is arranged with the piston engine (2). The piston engine 2 is a large diesel engine used, for example, as a main or auxiliary engine of a ship or a power plant. The piston engine 2 is provided with a common pressure supply system 4 for supplying fuel to the cylinder 3. For example, in the engine 2, heavy fuel oil is used as fuel. The injection system 4 is electrically controlled.

The engine includes a plurality of cylinders (3), and each cylinder is provided with an injector (5) for injecting fuel into the combustion chamber of the cylinder. The feed system includes a common rail 9 for pressurized fuel. The injector 5 is connected to the common rail 9. The fuel supply system 4 includes a fuel source 6 (e.g. a fuel tank) and a low pressure pump 11 and a high pressure pump 12 for supplying fuel from the fuel source 6 into the common rail 9 do. Each injector (5) is connected to the common rail (9) via a fuel channel (10).

During operation of the engine 2, the fuel is pumped from the fuel tank 6 to the high-pressure pump 12 along the supply channel 13 by the low-pressure pump 11, (13) to the common rail (9). The fuel is guided from the common rail 9 to the injector 5. The fuel is injected into the cylinder 3 by the injector 5 at a desired moment.

The engine includes a system 1 in which the cylinders 3 are balanced, i. E. The combustion process is maintained as similar as possible between the cylinders 3. The system 1 includes a control unit 14 for controlling the fuel injection from the injector 5 into the cylinder 3. The control unit 14 defines the start moment of fuel injection into each cylinder. The control unit 14 adjusts the start moment of the fuel injection. Moreover, the control unit 14 controls the duration of the fuel injection.

The control unit 14 defines the crankshaft angle in each cylinder 3 corresponding to the start moment of the combustion process, that is, the start of combustion. The start moment of the combustion process can be defined based on the measurement of the position of the cylinder pressure (crankshaft angle corresponding to the cylinder pressure indicative of the beginning of the combustion process) or on the measurement of the torsional vibration of the crankshaft. In both methods, the rotation angle is measured by an angle sensor 16 suitable for the purpose. The measurement data of the angle sensor 16 is transmitted to the control unit 14.

In the method based on the measurement of the position of the cylinder pressure, the cylinder pressure of each cylinder 3 is measured by a suitable measuring means 15, for example a pressure sensor installed with the cylinder 3, a knock sensor transducer) or a strain gauge. Also, the cylinder pressure may be measured by using an ionization measurement. The measurement data for the cylinder pressure and the rotation angle of the crankshaft are transmitted to the control unit 14. [ The control unit 14 defines the start moment of the combustion process in each cylinder 3 based on the measurement data of the cylinder pressure and the rotation angle of the crankshaft. As soon as the measured cylinder pressure reaches a value indicating that the combustion process in the cylinder 3 has begun, the corresponding crank angle can be defined. For example, a change in the angle coefficient occurring in the cylinder pressure increasing curve indicates the start of the combustion process. In addition, the instant of initiation of the combustion process may be defined by measuring the maximum cylinder pressure.

When the start moment of the combustion process is defined based on the measurement of torsional vibration, the system includes measuring means for measuring the torsional vibration of the crankshaft. As the measuring means, an angle sensor 16 for measuring the rotation angle of the crankshaft can be used, whereby measurement data on the magnitude of the torsional vibration and the rotation angle when the torsional vibration occurs are received. The measurement data is transmitted to the control unit 14. Based on the measurement data, the control unit 14 specifies the start moment of the combustion process in each cylinder 3.

Once the start moment of the combustion process is defined, the control unit 14 compares the specified start moment of the combustion process with a specific set point. The set value can be predetermined based on the pressure of the engine rod and the common rail 9, for example. If the prescribed start moment of the combustion process is different from the set value, the control unit 14 individually changes the start moment of fuel injection for each cylinder. The start moment of the fuel injection is changed so that the start moment of the combustion process approaches the set value. The start moment of the fuel injection can be changed so as to become equal to the set value at the start moment of the combustion process since the start moment of the fuel injection corresponds very accurately to the start moment of the combustion process.

Moreover, the control unit 14 changes the duration of the fuel injection into the cylinder 3 so as to equalize the outputs produced by the cylinder. The duration of the fuel injection is varied individually for each cylinder. The duration of the fuel injection is changed as soon as the above-mentioned adjustment of the start moment of fuel injection is made, that is, the start moment of fuel injection is as desired. The duration of the fuel injection into the cylinder can be varied so that the outputs produced by each cylinder 3 are equal. The duration of the fuel injection can be changed based on the exhaust gas temperature of the cylinder 3 or on the basis of the measurement of the torsional vibration of the crankshaft.

When the duration of the fuel injection is adjusted based on the exhaust gas temperature, the system 1 includes a cylinder-specific temperature sensor 18 for measuring the exhaust gas temperature of the cylinder. The temperature sensor 18 is installed in the exhaust duct 19 of the cylinder. The measurement data of the temperature sensor 18 is transmitted to the control unit 14. [ The control unit 14 changes the duration of fuel injection based on the measured exhaust gas temperature. The duration of the fuel injection is varied to make the outputs produced by the cylinder 3 equal. The control unit 14 can change the duration of the fuel injection so that the exhaust gas temperatures in each cylinder 3 are the same. The measured exhaust gas temperature is compared with the set value. If the measured exhaust gas temperature of one of the cylinders 3 is different from the set value, the duration of the fuel injection into the cylinder is changed so that the exhaust gas temperature becomes its set value. An average value or a predetermined value of the measured exhaust gas temperature can be used as a set value for the exhaust gas temperature, and the magnitude of this value can depend, for example, on the engine rod or the fuel used. The duration of the fuel injection is extended when the exhaust gas temperature is very low. Similarly, the duration of fuel injection is shortened when the exhaust gas temperature is very high.

When the duration of the fuel injection is defined on the basis of measurement of the torsional vibration of the crankshaft, the system includes measuring means for measuring the torsional vibration of the crankshaft. As the measuring means, an angle sensor 16 for measuring the rotation angle of the crankshaft can be used, whereby measurement data on the magnitude of the torsional vibration and the rotation angle when the torsional vibration occurs are simultaneously received. The measurement data is transmitted to the control unit 14. The control unit 14 individually changes the duration of the fuel injection into each cylinder so that the torsional vibration of the crankshaft is minimized.

The duration of the fuel injection can be varied by using the method described above, i.e. based on the exhaust gas temperature of the cylinder and on the basis of the torsional oscillation of the crankshaft. The duration of the fuel injection can then be adjusted by using both measurements simultaneously, or by using one measurement, for example a measurement of the exhaust gas temperature (the other measurement is a backup measurement). If necessary, for example, if the primary measurement fails, another measurement can be used

It is not intended that the invention be limited to the embodiments shown, but is capable of various modifications within the scope of the appended claims. The start moment of the combustion process can be defined by measuring the current in the solenoid valve of the injector 5 or by measuring the fuel injection pressure. The fuel injection pressure can be measured by a pressure switch or a pressure transducer installed on the common rail 9 or the fuel channel 10 of the injector.

For example, according to one embodiment, the duration of fuel injection into the cylinder 3 is varied based on the exhaust gas temperature and on the basis of the torsional vibration, so as to equalize the outputs produced by the cylinder. In this way, as long as the duration of the injector is concerned, the accuracy of the adjustment can be further increased.

Further, the method further comprises the step of evaluating the correctness of the measurement of the exhaust gas temperature and, if the measurement of the exhaust gas temperature of the cylinder is not valid, determining a change in the duration of the fuel injection based on the torsional vibration . Such a situation where the measurement of the exhaust gas temperature is not effective may be performed, for example, when the sensor for measuring the exhaust gas temperature is broken, or when the exhaust gas temperature 18 of the cylinder is lower than a predetermined temperature value or from an average value of the exhaust gas temperature of the cylinder It is the case that it is enough. This provides the advantage that the error conditions of the sensor affecting the adjustment of the duration of the injection can be identified and there is no need to stop the engine. In this case, one way of defining the variation of the duration of the fuel injection into the cylinder 3 is that the exhaust gas temperature 18 of the cylinder is deviated by more than 50% from the predetermined temperature value or from the average value of the exhaust gas temperature of the cylinder If so, it is based on torsional vibration. The predetermined temperature value for a particular load may be, for example, a reference value for a particular load and speed recorded in the adjustment system. Another way of defining a change in the duration of fuel injection into the cylinder 3 is that if the exhaust gas temperature 18 of the cylinder deviates from the predetermined temperature value or by an average value of the exhaust gas temperature of the cylinder by 10% It is based on vibration. This means that the determination method which influences the adjustment of the duration of the injection can be changed momentarily, and thus a predominantly used determination method (in this case a method based on the exhaust gas temperature) can be selected This provides the advantage. By changing the function of the control unit 14 of the system, two executions can be realized.

Claims (1)

A method for balancing a cylinder (3) of a diesel engine (2), characterized in that it is described in the Detailed Description of the Invention.

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