JP2004211551A - Control system of diesel engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To restrain the occurrence of the problem characteristic of a diesel engine such as black smoke and a combustion sound when performing torque-down control in a shift of a transmission. <P>SOLUTION: When a fuel injection quantity temporarily reduces regardless of an accelerator stepping quantity in a shift of the transmission 60, an ECU 52 controls a supply pump 29 and a pressure reducing valve 32 for adjusting injection pressure by an injection pressure command value calculated on the basis of estimated torque determined from the accelerator stepping quantity instead of performing control on the basis of the fuel injection quantity. The ECU 52 controls a fuel injection nozzle 26 by an injection timing command value calculated on the basis of the estimated torque determined from the accelerator stepping quantity instead of performing control on the basis of the fuel injection quantity. The ECU 52 also controls a variable nozzle turbocharger 34 by a VNT opening command value calculated on the basis of the estimated torque determined from the accelerator stepping quantity instead of performing control on the basis of the fuel injection quantity. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a control device for a vehicle-mounted diesel engine.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an automobile engine, output adjustment is performed based on an accelerator pedal depression amount (accelerator depression amount) which is depressed by a driver of the vehicle. The accelerator pedal depression amount is a parameter indicating the magnitude of the output request to the engine, and the required engine output can be obtained by adjusting the engine output based on the accelerator pedal depression amount. For example, in a diesel engine, the fuel injection amount is controlled based on the accelerator pedal depression amount and the like, and the output is adjusted to obtain the required engine output.
[0003]
A transmission is connected to the vehicle engine via a clutch mechanism. At the time of shifting of the transmission, the clutch mechanism is operated so as to temporarily cut off the power transmission between the engine and the transmission. However, such connection / disconnection (disengagement / engagement) of the clutch mechanism can be automatically performed. Proposed. Further, Patent Documents 1 to 3 disclose that when the transmission is shifted and the power transmission between the diesel engine and the transmission is cut off by releasing the clutch mechanism, the fuel is transmitted regardless of the output request to the diesel engine. Torque reduction control is performed to temporarily reduce the injection amount and reduce the output torque of the diesel engine. With such a torque-down control, even if the accelerator depression amount is maintained or the accelerator depression amount is increased in a state where the clutch is automatically released at the time of shifting, the engine will be in an idling state even if the accelerator depression amount is increased. This prevents the engine speed from unnecessarily increasing.
[0004]
[Patent Document 1]
JP-A-60-94830
[Patent Document 2]
JP-A-10-329582
[Patent Document 3]
JP-A-11-291795
[0005]
[Problems to be solved by the invention]
Incidentally, in a diesel engine, the injection timing and the injection pressure or the supercharging pressure are adjusted in order to optimize the combustion state. These are closely related to the fuel injection amount, and the injection timing and the injection pressure or the supercharging pressure are set based on the fuel injection amount.
[0006]
As described above, the fuel injection amount is temporarily reduced due to the torque down control, and the fuel injection amount is returned to a value corresponding to the output request after the shift of the transmission is completed. However, there is a response delay in the change of the injection timing, the injection pressure or the supercharging pressure due to the change of the fuel injection amount. Therefore, when the fuel injection amount is once reduced by the torque down control and then increased to a value corresponding to the output request to the engine, the injection timing and the injection pressure follow the change in the fuel injection amount accurately. Alternatively, it is difficult to change the supercharging pressure. Therefore, the following problems peculiar to the diesel engine occur. For example, if the injection timing is advanced to prevent a misfire in the control of the injection timing based on the temporary decrease of the fuel injection amount by the torque down control, a loud combustion noise is generated or the NOx generation amount is reduced. May increase.
[0007]
Further, in the control of the injection pressure, the injection pressure is temporarily reduced based on the decrease in the fuel injection amount, so that the injected fuel is less likely to be atomized, and the fuel particles are exhausted without being completely burned. The amount of particulates inside increases, causing black smoke to be generated.
[0008]
Further, in the control of the supercharging pressure, the supercharging pressure is temporarily reduced based on the decrease in the fuel injection amount, and when the fuel injection amount is temporarily reduced and then increased, the supercharging pressure is reduced by the fuel after the increase. There is a delay in increasing the fuel injection amount to a value suitable for the injection amount, and the intake air amount of the engine becomes smaller than the required amount for the fuel injection amount for the same fuel injection amount. As a result, the fuel is burned in a state of lack of oxygen, so that the amount of the particulates in the exhaust gas increases, and black smoke is generated.
[0009]
The present invention has been made in view of such circumstances, and an object of the present invention is to cause a problem peculiar to a diesel engine such as black smoke and combustion noise when torque reduction control is performed during gear shifting of a transmission. An object of the present invention is to provide a control device for a diesel engine that can suppress the operation of the diesel engine.
[0010]
[Means for Solving the Problems]
Hereinafter, the means for achieving the above object and the effects thereof will be described.
According to the first aspect of the present invention, the fuel injection amount is controlled in accordance with an output request to the diesel engine, and the adjusting means for adjusting a state amount for optimizing a combustion state of the diesel engine is provided by the fuel injection amount. The clutch mechanism is released so that the diesel engine and the transmission are automatically connected and disconnected when a transmission connected to the diesel engine via a clutch mechanism shifts. Control of a diesel engine comprising: clutch control means for engaging; and torque control means for temporarily reducing the fuel injection amount and reducing the engine output torque, regardless of the output request, when shifting the transmission. In the device, when the transmission is shifting, instead of controlling the adjustment means based on the fuel injection amount, the adjustment is performed based on the output request. Characterized in that it comprises a shift time control means for controlling a stage.
[0011]
At the time of shifting of the transmission, the fuel injection amount is temporarily reduced regardless of the output request to the diesel engine, thereby suppressing an excessive increase in the engine rotation speed when the clutch mechanism is released due to the shift. Further, after the shift operation of the transmission is performed, the fuel injection amount reduced as described above is increased to a value corresponding to the output request to the engine, and the engagement of the clutch mechanism is started, and the diesel engine is started. The two are joined together with the rotation of the engine and the transmission aligned. As described above, when the fuel injection amount is temporarily reduced during the shift of the transmission, the adjusting means is controlled based on the output request, so that the combustion is optimized in accordance with the decrease in the fuel injection amount. The state quantity is not changed. Therefore, when the fuel injection amount is increased from the reduced state toward a value corresponding to the output request to the engine, it is possible to suppress a delay in response to a change in the state quantity with respect to the change. Therefore, it is possible to prevent the combustion state from deteriorating at the time of shifting of the transmission.
[0012]
According to a second aspect of the present invention, in the control apparatus for a diesel engine according to the first aspect, the shift control means includes an accelerator operation indicating a magnitude of an output request to the diesel engine when the transmission is shifting. The output torque of the engine obtained during normal engine operation by the accelerator operation at that time is calculated as an estimated torque based on the amount, and the adjusting means is controlled based on the estimated torque.
[0013]
The output torque of the diesel engine changes according to the fuel injection amount. Therefore, the estimated torque becomes a value corresponding to the output request to the diesel engine at the time of shifting of the transmission, that is, the fuel injection amount corresponding to the accelerator operation amount. Therefore, by controlling the adjusting means based on the estimated torque, the state quantity for optimizing the combustion state due to the temporary decrease in the fuel injection amount during the shift of the transmission does not change.
[0014]
According to a third aspect of the present invention, the fuel injection amount is controlled according to an output request to the diesel engine, and the adjusting means for adjusting a state amount for optimizing a combustion state of the diesel engine is provided by the fuel injection amount. The clutch mechanism is released so that the diesel engine and the transmission are automatically connected and disconnected when a transmission connected to the diesel engine via a clutch mechanism shifts. Control of a diesel engine comprising: clutch control means for engaging; and torque control means for temporarily reducing the fuel injection amount and reducing the engine output torque, regardless of the output request, when shifting the transmission. In the device, at the time of shifting of the transmission, instead of controlling the adjusting means based on the fuel injection amount, the adjusting means may be controlled immediately before the shift. Characterized in that it comprises a shift time control means for performing fixed control for fixing the state.
[0015]
At the time of shifting of the transmission, the fuel injection amount is temporarily reduced regardless of the output request to the diesel engine, thereby suppressing an excessive increase in the engine rotation speed when the clutch mechanism is released due to the shift. Further, after the shift operation of the transmission is performed, the fuel injection amount reduced as described above is increased to a value corresponding to the output request to the engine, and the engagement of the clutch mechanism is started, and the internal combustion engine is started. The two are joined in a state where the rotation of the engine and the transmission are synchronized. As described above, when the fuel injection amount is temporarily reduced during the shift of the transmission, the fixing control for fixing the adjusting unit to the state immediately before the shift of the transmission is performed. The state variables for optimizing the combustion are not changed. Therefore, when the fuel injection amount is increased from the reduced state toward a value corresponding to the output request to the engine, it is possible to suppress a delay in response to a change in the state quantity with respect to the change. Therefore, it is possible to prevent the combustion state from deteriorating at the time of shifting of the transmission.
[0016]
According to a fourth aspect of the present invention, the fuel injection amount is controlled in accordance with an output request to the diesel engine, and the adjusting means for adjusting a state amount for optimizing a combustion state of the diesel engine is provided by the fuel injection amount. The clutch mechanism is released so that the diesel engine and the transmission are automatically connected and disconnected when a transmission connected to the diesel engine via a clutch mechanism shifts. Control of a diesel engine comprising: clutch control means for engaging; and torque control means for temporarily reducing the fuel injection amount and reducing the engine output torque, regardless of the output request, when shifting the transmission. In the device, when shifting the transmission, instead of controlling the adjusting means based on the fuel injection amount, the diesel engine at that time Characterized in that it comprises a shift time control means for controlling said adjusting means output request and based on the output torque of the diesel engine after speed change is predicted from the transmission mode of the transmission.
[0017]
At the time of shifting of the transmission, the fuel injection amount is temporarily reduced regardless of the output request to the diesel engine, thereby suppressing an excessive increase in the engine rotation speed when the clutch mechanism is released due to the shift. Further, after the shift operation of the transmission is performed, the fuel injection amount reduced as described above is increased to a value corresponding to the output request to the engine, and the engagement of the clutch mechanism is started, and the diesel engine is started. The two are joined together with the rotation of the engine and the transmission aligned. When the fuel injection amount is temporarily reduced during the shift of the transmission as described above, the adjusting means is controlled based on the predicted value of the output torque of the engine immediately after the shift, so that the fuel injection amount is reduced. The state variables for optimizing the combustion are not changed. Therefore, when the fuel injection amount is increased from the reduced state toward a value corresponding to the output request to the engine, it is possible to suppress a delay in response to a change in the state quantity with respect to the change. Therefore, it is possible to prevent the combustion state from deteriorating at the time of shifting of the transmission.
[0018]
According to a fifth aspect of the present invention, in the control apparatus for a diesel engine according to the fourth aspect, the shift control means determines a magnitude of an output request to the diesel engine when a shift of the transmission is performed. Based on the accelerator operation amount represented, the output torque of the engine obtained during normal engine operation by the accelerator operation immediately before the shift is calculated as the estimated torque, and based on the estimated torque and the shift mode of the transmission, It is characterized by predicting the output torque of the engine.
[0019]
The output torque of the diesel engine changes according to the fuel injection amount. For this reason, the estimated torque becomes a value corresponding to the output request to the diesel engine immediately before the shift of the transmission, that is, the fuel injection amount corresponding to the accelerator operation amount. Further, the predicted value of the engine output torque immediately after the shift based on the estimated torque and the shift mode of the transmission corresponds to the output request to the diesel engine immediately after the shift, that is, the fuel injection amount immediately after the shift according to the accelerator operation amount. Value. Therefore, by controlling the adjusting means based on the predicted value, the state quantity for optimizing the combustion state due to the temporary decrease in the fuel injection amount during the shift of the transmission does not change.
[0020]
According to a sixth aspect of the present invention, in the control apparatus for a diesel engine according to any one of the first to fifth aspects, the adjusting means accumulates a fuel injection pressure, and injects fuel into the diesel engine. And at least one of a supercharger for supplying intake air to the diesel engine at a predetermined supercharging pressure.
[0021]
State quantities for optimizing the combustion state of the diesel engine include an injection pressure, an injection timing, and a supercharging pressure of intake air. The injection pressure is controlled by adjusting the accumulator. The injection timing is controlled by adjusting the valve opening timing of the fuel injection nozzle. The supercharging pressure is controlled by adjusting the supercharger. The control of the pressure accumulator, the fuel injection nozzle, and the supercharger suppresses an excessive change in the state quantity during gear shifting.
[0022]
According to a seventh aspect of the present invention, in the control apparatus for a diesel engine according to any one of the first to sixth aspects, the transmission automatically shifts in accordance with a driving condition of the vehicle. The time control means starts control of at least one of the injection pressure, the injection timing and the supercharging pressure when the shift request of the transmission is made.
[0023]
When a shift request is made to perform an automatic shift of the transmission according to the driving situation, the control of the adjusting means by the shift control means is started, and the state quantity changes excessively during the shift of the transmission by the control. Is suppressed. Therefore, in the case where the transmission that performs the shift as described above is employed, the control of the adjustment unit by the shift control unit for suppressing an excessive change in the state quantity can be started accurately. Become.
[0024]
According to an eighth aspect of the present invention, in the diesel engine control device according to any one of the first to sixth aspects, the transmission is shifted according to a shift operation of a driver, and the shift control is performed. The means starts control of at least one of the injection pressure, injection timing, and supercharging pressure adjusting means when a shift request of the transmission is made.
[0025]
When a shift request is made to shift the transmission in response to a driver's shift operation, the control of the adjusting means by the shift control means is started, and the control causes an excessive change in the state quantity during the shift of the transmission. That is suppressed. Therefore, in the case where the transmission in which the shift is performed as described above is employed, the control of the adjustment unit by the shift control unit for suppressing the excessive change in the state quantity can be accurately started.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
Hereinafter, a first embodiment in which the present invention is embodied in a method for calculating an engine torque of a diesel engine will be described.
[0027]
As shown in FIG. 1, the vehicle is equipped with a pressure accumulating diesel engine (hereinafter simply referred to as an engine) 11. The engine 11 includes a cylinder head 12 and a cylinder block 14 having a plurality of cylinders (cylinders) 13. A piston 15 is accommodated in each cylinder 13 so as to be able to reciprocate. Each piston 15 is connected via a connecting rod 16 to a crankshaft 17 which is an output shaft of the engine 11. The reciprocating motion of each piston 15 is transmitted to a crankshaft 17 after being converted into a rotary motion by a connecting rod 16. The rotation of the crankshaft 17 is shifted by a transmission (not shown), and the rotation after the shift is transmitted to the drive wheels. The rotation of the crankshaft 17 is transmitted to a vehicle wheel (not shown) via a transmission 60 and the like.
[0028]
The transmission 60 has a plurality of shift speeds, for example, 1st to 5th speeds, and switches the shift speeds according to the running state (driving state) of the automobile or a request from the driver. The input shaft 61 of the transmission 60 and the crankshaft 17 of the engine 11 are connected via a clutch mechanism 62 that connects and disconnects the two. When shifting the transmission 60, first, the clutch mechanism 62 is disengaged and rotation is not transmitted between the engine 11 and the transmission 60. In this state, the shifting operation of the transmission 60 is performed. Is performed, the clutch mechanism 62 is engaged.
[0029]
The engine 11 is provided with a combustion chamber 18 for each cylinder 13. An intake passage 19 and an exhaust passage 20 are connected to each combustion chamber 18. The cylinder head 12 is provided with an intake valve 21 and an exhaust valve 22 for each cylinder 13. The intake and exhaust valves 21 and 22 open and close the intake and exhaust passages 19 and 20 by reciprocating in conjunction with the rotation of the crankshaft 17.
[0030]
In the intake passage 19, an air cleaner 23, an intake throttle valve 24 and the like are arranged. Then, basically, in the intake stroke of the engine 11, when the exhaust valve 22 is closed and the piston 15 is lowered in a state where the intake valve 21 is opened, the pressure in the cylinder 13 becomes a value lower than the outside air (negative pressure). That is, air outside the engine 11 passes through each part of the intake passage 19 in order and is taken into the combustion chamber 18.
[0031]
The intake throttle valve 24 is rotatably supported in the intake passage 19 and is driven by an actuator 25 such as a step motor connected to the intake throttle valve 24. The amount of air flowing through the intake passage 19 (the amount of intake air) changes according to the degree of opening (the degree of opening) of the intake throttle valve 24.
[0032]
A fuel injection nozzle 26 for injecting fuel into each combustion chamber 18 is attached to the cylinder head 12. Each fuel injection nozzle 26 is provided with an electromagnetic valve (not shown), and the fuel injection from the fuel injection nozzle 26 to the combustion chamber 18 is controlled by the electromagnetic valve. The fuel injection nozzle 26 is connected to a common rail 27 that is a pressure accumulator (common pressure accumulation pipe), and while the solenoid valve is open, fuel in the common rail 27 is injected from the fuel injection nozzle 26 to the corresponding combustion chamber 18. Is done. A relatively high pressure corresponding to the fuel injection pressure is accumulated in the common rail 27. In order to realize this pressure accumulation, the common rail 27 is connected to a supply pump 29 which is a fuel pump.
[0033]
The supply pump 29 draws fuel from a fuel tank (not shown) and reciprocates a plunger by a cam synchronized with the rotation of the engine 11 to increase the fuel to a predetermined pressure and supply the fuel to the common rail 27. The supply pump 29 is provided with a suction metering valve 31 as a pressure control valve for controlling the pressure of the fuel discharged toward the common rail 27 and thus the discharge amount.
[0034]
The common rail 27 is provided with a pressure reducing valve (relief valve) 32 that is opened when a predetermined condition is satisfied. By opening the pressure reducing valve 32, the high-pressure fuel in the common rail 27 is returned to the fuel tank through a return pipe (not shown), and the pressure in the common rail 27 decreases.
[0035]
Then, fuel is injected from the fuel injection nozzle 26 to the high-temperature and high-pressure intake air introduced into the cylinder 13 through the intake passage 19 and compressed by the piston 15. This injected fuel self-ignites and burns. The combustion gas generated at this time causes the piston 15 to reciprocate, the crankshaft 17 to rotate, and the driving force (output torque) of the engine 11 to be obtained. The combustion gas is discharged to the outside of the engine 11 through a catalyst 33 provided in the exhaust passage 20 and the like.
[0036]
The engine 11 is provided with a variable nozzle turbocharger 34 which is one form of a supercharger. The variable nozzle turbocharger 34 includes a turbine wheel 35 rotated by exhaust gas flowing through the exhaust passage 20, and a compressor wheel 37 disposed in the intake passage 19 and connected to the turbine wheel 35 via a rotor shaft 36. I have. In the variable nozzle turbocharger 34, the exhaust gas is blown to the turbine wheel 35, and the wheel 35 rotates. This rotation is transmitted to the compressor wheel 37 via the rotor shaft 36. As a result, in the engine 11, not only the air is sent into the combustion chamber 18 by the negative pressure generated in the combustion chamber 18 due to the movement of the piston 15, but also the air is forcibly forced by the rotation of the compressor wheel 37. 18 (supercharged). In this way, the efficiency with which the combustion chamber 18 is filled with air is increased.
[0037]
Further, in the variable nozzle turbocharger 34, an exhaust gas path is formed along the rotation direction of the turbine wheel 35 so as to surround the outer periphery of the turbine wheel 35, and the exhaust gas passes through the exhaust gas path and the axis of the turbine wheel 35. It is sprayed toward. The exhaust gas path is provided with a variable nozzle mechanism in which a plurality of nozzle vanes (variable nozzles) 39 are rotatably provided with respect to a ring-shaped nozzle back plate 38. The variable nozzle mechanism changes the exhaust gas flow area of the exhaust gas path by opening and closing in a state where all the nozzle vanes 39 are synchronized by the operation of the actuator 40 such as a DC motor. Variable flow rate. By making it variable in this way, the rotation speed of the turbine wheel 35 is adjusted, and thus the intake air to the combustion chamber 18 is supplied at a predetermined supercharging pressure.
[0038]
The engine 11 is provided with an exhaust gas recirculation (hereinafter, referred to as “EGR”) device 42 for recirculating a part of the exhaust gas flowing through the exhaust passage 20 to the intake passage 19. The EGR device 42 uses an exhaust gas (EGR gas) mixed with the intake air with the recirculation to increase the ratio of the inert gas in the air-fuel mixture to lower the maximum combustion temperature, and to reduce nitrogen oxides (NOx ) Is reduced.
[0039]
The EGR device 42 includes an EGR passage 43 and an EGR valve 44. The EGR passage 43 connects the exhaust passage 20 and a portion of the intake passage 19 downstream of the intake throttle valve 24. The EGR valve 44 is attached in the middle of the EGR passage 43, for example, at a connection point of the EGR passage 43 with the intake passage 19. The flow rate of the EGR gas flowing through the EGR passage 43 changes according to the opening degree (opening degree) of the EGR valve 44.
[0040]
An electronic control unit (hereinafter, referred to as an ECU) 52 is provided to control the diesel engine 11 configured as described above. The ECU 52 performs a fuel injection control such as a fuel injection amount control and a fuel injection timing control in the diesel engine 11. In conjunction with this fuel injection amount control, the ECU 52 performs fuel injection pressure control in the common rail 27 and supercharging pressure control by the variable nozzle turbocharger 34. The ECU 52 controls the opening of the EGR valve 44 and the opening of the intake throttle valve 24. Further, the ECU 52 controls driving of the transmission 60 and the clutch mechanism 62.
[0041]
Various signals shown below are input to the ECU 52.
A detection signal from an accelerator position sensor 46 that detects the amount of depression of an accelerator pedal 45 (accelerator depression amount) operated by the driver of the automobile.
[0042]
A detection signal from a crank position sensor 47 that outputs a signal corresponding to the rotation of the crankshaft 17;
A detection signal from a fuel pressure sensor 49 that detects the pressure of the fuel stored in the common rail 27, that is, the injection pressure (PF).
[0043]
A signal from an input rotation speed sensor 63 that detects the rotation speed of the input shaft 61 of the transmission 60;
A detection signal from a vehicle speed sensor 64 that detects the speed of the vehicle;
[0044]
A signal corresponding to the position of the shift lever 65 operated by the driver.
The shift lever 65 is used to set a shift mode for performing a shift such as upshifting or downshifting of the transmission 60, an automatic mode in which the shift is automatically performed according to a running state or a running request of the vehicle, and a shift mode by a driver. It is used to switch between a manual mode in which the shift is performed based on the operation of the lever 65. The shift of the transmission 60 is automatically performed based on the vehicle speed obtained from the detection signal from the vehicle speed sensor 64 and the accelerator pedal depression amount ACCP in the automatic mode, and the shift operation of the shift lever 65 by the driver (in the manual mode). Shift operation).
[0045]
In the diesel engine 11, the output torque is adjusted by the fuel injection amount control by the ECU 52. Such fuel injection amount control is performed by controlling the driving of the fuel injection nozzle 26 based on the fuel injection amount command value Qfin calculated from the accelerator pedal depression amount ACCP and the engine speed NE. Note that the accelerator depression amount ACCP is obtained based on a detection signal from the accelerator position sensor 46, and the engine speed NE is obtained based on a detection signal from the crank position sensor 47.
[0046]
By controlling the driving of the fuel injection nozzle 26 through the ECU 52 as described above, the amount of fuel corresponding to the fuel injection amount command value Qfin is injected, and the output torque of the diesel engine 11 is adjusted. The accelerator depression amount ACCP used for calculating the fuel injection amount command value Qfin is a parameter representing a driving request from the driver to the vehicle, in other words, an output request to the diesel engine 11. Therefore, by controlling the fuel injection amount based on the fuel injection amount command value Qfin, the output torque of the diesel engine 11 is adjusted so as to obtain the output torque required by the driver.
[0047]
Further, the ECU 52 controls the fuel pressure in the common rail 27, that is, the injection pressure by controlling the discharge amount of the supply pump 29 and adjusting the relief pressure of the pressure reducing valve (relief valve) 32. As for the injection pressure, the atomization of the fuel injected from the fuel injection nozzle 26 can be promoted as the injection pressure increases. However, when the fuel injection amount is large, the injection pressure is set to increase, and the atomization of the injected fuel is promoted to eliminate the unburned fuel particles, and soot-based fine particles (particulates). Is suppressed.
[0048]
Therefore, adjustment of the supply pump 29 and the pressure reducing valve 32 for controlling the injection pressure is performed based on the fuel injection amount command value Qfin and the like.
That is, the injection pressure command value PFt used for controlling the injection pressure PF is calculated based on the fuel injection amount command value Qfin and the engine speed NE. Under the condition that the engine rotational speed NE is constant, the injection pressure command value PFt increases as the fuel injection amount command value Qfin increases and decreases as the fuel injection amount command value Qfin decreases.
[0049]
Then, the supply pump 29 and the pressure reducing valve 32 are driven through the ECU 52 based on the injection pressure command value PFt. Thus, the injection pressure is increased as the fuel injection amount command value Qfin increases, and is decreased as the fuel injection amount command value Qfin decreases.
[0050]
In addition, the ECU 52 adjusts the injection timing according to the fuel injection amount so that the combustion state in the diesel engine 11 is optimized. As for the injection timing, the more the injection timing is advanced, the earlier the combustion start timing can be advanced.
[0051]
Further, the ECU 52 controls the supercharging pressure by the variable nozzle turbocharger 34 by driving the actuator 40 and adjusting the opening degree VNT of the nozzle vanes 39 so that the combustion state in the diesel engine 11 is optimized.
[0052]
Further, the ECU 52 shifts the transmission 60 based on a change in a driving state such as a vehicle speed or an accelerator depression amount ACCP in the automatic mode, or a shift operation of the shift lever 65 in the manual mode.
[0053]
Next, various controls of the diesel engine 11, the clutch mechanism 62, and the transmission 60 during shifting of the transmission 60 will be described with reference to a time chart of FIG.
[0054]
At the time of shifting of the transmission 60, the clutch mechanism 62 is drive-controlled through the ECU 52 so that rotation transmission (power transmission) is not performed between the diesel engine 11 and the transmission 60, and connection and disconnection of the mechanism 62 are automatically performed. Done.
[0055]
That is, first, before the shift operation of the transmission 60 starts, for example, when a shift request is made as shown in FIG. 2A, the clutch mechanism 62 is released, and the power between the diesel engine 11 and the transmission 60 is changed. The transmission is temporarily interrupted (timing t1). In this state, the shifting operation of the transmission 60 such as upshifting and downshifting is performed. While the clutch mechanism 62 is released, the fuel injection amount is temporarily reduced irrespective of the output request to the diesel engine 11 so that the engine rotation speed NE of the diesel engine 11 does not excessively increase. Torque reduction control for reducing the output torque is performed.
[0056]
The reduction of the fuel injection amount for such torque down control is usually performed by changing the fuel injection amount command value Qfin calculated based on the accelerator depression amount ACCP (output request) or the like to the accelerator depression amount ACCP shown in FIG. Irrespective of the above, it is realized by reducing the value to a predetermined value as shown in FIG. In addition, as the predetermined value, for example, it is preferable to adopt a value such that the output torque of the diesel engine 11 becomes “0 Nm”. By reducing the fuel injection amount command value Qfin as described above, the fuel injection amount of the diesel engine 11 is reduced, and the output torque of the engine 11 is reduced as shown by the solid line in FIG.
[0057]
By executing the torque down control, the engine rotational speed NE while the clutch mechanism 62 is released gradually decreases as shown by a broken line in FIG. 2B. The input rotation speed NI, which is the rotation speed of the input shaft 61 of the transmission 60, changes according to the shift mode of the transmission 60 after the clutch mechanism 62 is released. The input rotation speed NI is obtained based on a detection signal from the input rotation speed sensor 63.
[0058]
The solid line in FIG. 2B shows the transition of the input rotation speed NI when the transmission 60 shifts up. In this case, after the clutch mechanism 62 is disengaged, the input rotation speed NI gradually decreases based on a change in the gear ratio accompanying the upshift.
[0059]
When the shift operation for upshifting is completed (timing t2), the fuel injection amount command value Qfin is set to a value corresponding to the accelerator pedal depression amount ACCP (output request) and the engine speed NE, as shown in FIG. , The fuel injection amount is gradually increased, and the engagement of the clutch mechanism 62 is started. As a result, the rotations of the engine rotation speed NE and the input rotation speed NI are matched, and the engagement between the crankshaft 17 and the input shaft 61 of the transmission 60 by the engagement of the clutch mechanism 62 is performed (timing t3). Then, the shift (upshift in this case) of the transmission 60 is completed by performing the same joining.
[0060]
By the way, when the fuel injection amount is temporarily reduced for the torque down control, the fuel injection amount command value Qfin is reduced to a predetermined value regardless of the accelerator pedal depression amount ACCP (output request), and thereafter, the accelerator pedal depression is performed. It is increased to a value corresponding to the quantity ACCP. The fuel injection amount command value Qfin is used for calculating the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt.
[0061]
Therefore, when the fuel injection amount command value Qfin temporarily decreases, the injection pressure command value PFt correspondingly temporarily decreases as indicated by a thin solid line in FIG. The command value IAt temporarily becomes a small value as shown by a thin solid line in FIG. Also, the VNT opening command value VAt temporarily becomes a small value as shown by a thin solid line in FIG. As a result, the pressure reducing valve 32 is controlled to temporarily decrease the injection pressure as shown by the broken line in FIG. 2F, and the fuel injection nozzle 26 is controlled as shown by the broken line in FIG. Is temporarily controlled to retard the injection timing. Further, the nozzle vane 39 is controlled to the closing side, which is the side for temporarily reducing the supercharging pressure, as shown by the broken line in FIG.
[0062]
By the above-described control for reducing the injection pressure of the pressure reducing valve 32, the injection pressure PF is temporarily reduced in accordance with the fuel injection amount command value Qfin which is temporarily reduced. Ideally, the change in the injection pressure at this time is performed in accordance with the change in the fuel injection amount command value Qfin as shown by a thin solid line in FIG. A response delay occurs as shown by a broken line with respect to a change in the amount command value Qfin. In addition, as shown in FIG. 2 (g), in response to a change in the injection timing, a response delay actually occurs as indicated by a broken line with respect to a change in the fuel injection amount command value Qfin. Furthermore, as for the change of the supercharging pressure, a response delay actually occurs as shown by a broken line with respect to the change of the fuel injection amount command value Qfin as shown in FIG.
[0063]
Then, when a response delay occurs in the change of the injection pressure, when the fuel injection amount is once decreased for torque down control and then increased toward a value corresponding to the accelerator depression amount ACCP, the fuel injection amount is reduced. It becomes difficult to change the injection pressure with high accuracy following the change. For this reason, when the fuel injection amount is once decreased and then increased, as described above, there is a delay in increasing the injection pressure to a value suitable for the increased fuel injection amount. When the injection pressure is reduced in this manner, atomization of the fuel is suppressed. As a result, the fuel particles injected into the combustion chamber 18 are not completely burned out and remain unburned, and it is inevitable that the fuel particles become particulates and the amount of the particulates in the exhaust gas increases.
[0064]
When a response delay occurs in the change of the supercharging pressure, when the fuel injection amount is once decreased for torque down control and then increased toward a value corresponding to the accelerator pedal depression amount ACCP, the fuel injection amount is reduced. It is difficult to accurately change the supercharging pressure in accordance with the change in the pressure. Therefore, when the fuel injection amount is once decreased and then increased as described above, a delay occurs in increasing the supercharging pressure to a value suitable for the increased fuel injection amount. When the supercharging pressure is reduced in this manner, it becomes impossible to secure the amount of air necessary for combustion of the fuel injection amount, and the fuel injected into the combustion chamber 18 remains unburned without completely burning out, It is unavoidable that this becomes particulate and the amount of particulate in the exhaust gas increases.
[0065]
In order to solve such a problem, in the present embodiment, at the time of gear shifting of the transmission 60, the injection pressure command value PFt and the injection pressure The timing command value IAt and the VNT opening command value VAt are calculated.
[0066]
That is, first, based on the accelerator depression amount ACCP and the engine rotation speed NE, the output torque obtained during normal engine operation based on the accelerator depression amount ACCP (output request) at that time is calculated as the estimated torque Te. When the fuel injection amount is temporarily reduced, the estimated torque Te thus calculated changes so as to be substantially constant as shown by a broken line in FIG. 2C. An injection pressure command value PFt, an injection timing command value IAt, and a VNT opening command value VAt are calculated based on the estimated torque Te and the engine speed NE.
[0067]
As a result, the injection pressure command value PFt changes to be substantially constant corresponding to the estimated torque Te and the like as shown by the thick solid line in FIG. 2 (f), and the injection timing command value IAt is changed to FIG. 2 (g). As shown by the bold solid line, it changes so as to be substantially constant corresponding to the estimated torque Te and the like. Further, the VNT opening command value VAt changes so as to be substantially constant corresponding to the estimated torque Te and the like as shown by the thick solid line in FIG.
[0068]
Therefore, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the supply pump 29 and the pressure reducing valve 32 are substantially constant without being controlled to the side that temporarily reduces the injection pressure with the decrease. , And accordingly, the injection pressure also changes so as to be substantially constant as shown in FIG. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request), there is no response delay in increasing the injection pressure in response to the change. Therefore, since the injected fuel is atomized by the injection pressure corresponding to the fuel injection amount, the fuel particles are not completely burned out and no unburned residue is generated, and the amount of particulates in the exhaust gas increases. Can be suppressed.
[0069]
Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the injection timing by the fuel injection nozzle 26 changes so as to be substantially constant as shown in FIG. Therefore, when the fuel injection amount is increased from the temporary decrease state to a value corresponding to the accelerator depression amount ACCP (output request), there is no response delay in increasing the injection timing in response to the change. Therefore, the fuel is injected at the injection timing according to the fuel injection amount, so that the fuel efficiency can be improved. Further, when the load is low, it is necessary to make the over-advance angle based on the misfire countermeasure map, but according to the present embodiment, it is not necessary to use the over-advance angle region, so that the combustion noise can be reduced. .
[0070]
Further, when the fuel injection amount is temporarily reduced at the time of shifting of the transmission 60, the nozzle vanes 39 are made substantially constant without being controlled to the side that temporarily reduces the supercharging pressure in accordance with the reduction. Accordingly, the supercharging pressure also changes so as to be substantially constant as shown in FIG. Therefore, when the fuel injection amount is increased from the temporary decrease state to the value corresponding to the accelerator depression amount ACCP (output request), there is no delay in increasing the supercharging pressure in response to the change. Accordingly, the air for combustion is supplied into the combustion chamber 18 by the supercharging pressure according to the fuel injection amount, so that the intake air amount of the diesel engine 11 can be secured to the required amount with respect to the fuel injection amount, and the fuel amount can be secured. No unburned residue is generated, and an increase in the amount of particulates in the exhaust gas can be suppressed.
[0071]
Next, the calculation procedure of the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt will be described with reference to the flowcharts of FIGS. This command value calculation routine is executed by the ECU 52, for example, by interruption at predetermined time intervals.
[0072]
In the command value calculation routine, it is determined in step 101 whether or not a shift flag F for determining whether or not the transmission 60 is shifting is "0 (non-shifting)". It is determined whether or not there is. If the shift flag F is "0 (non-shifting)" (step 101 in FIG. 3: YES) and there is no shift request (step 102: YES), the shift flag F is determined based on the fuel injection amount command value Qfin and the engine speed NE. The normal injection pressure command value PFt is calculated (step 103). Subsequently, a normal injection timing command value IAt is calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE (step 104), and a normal injection timing command value IAt is calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE. The VNT opening command value VAt is calculated (step 105).
[0073]
In this calculation routine, if a negative determination is made in the processing of step 102 and it is determined that there is a shift request, the process proceeds to step 108 (FIG. 4), and after the shift flag F is set to "1 (during shifting)", Steps 109 to 112 are executed. When the shift flag F is set to "1", a negative determination is made in the subsequent step 101 (FIG. 3), and the routine proceeds to steps 109 to 112. Therefore, during the shifting of the transmission 60, the processing of steps 109 to 112 is executed.
[0074]
As this processing, in step 109, the estimated torque Te is calculated based on the accelerator pedal depression amount ACCP and the engine speed NE. In step 110, the injection pressure command value PFt is calculated based on the engine speed NE and the estimated torque Te with reference to, for example, the map of FIG. As shown in FIG. 5, for example, under the condition that the engine rotational speed NE is constant, the injection pressure command value PFt increases as the estimated torque Te increases and decreases as the estimated torque Te decreases. become.
[0075]
In step 111, the injection timing command value IAt is calculated based on the engine speed NE and the estimated torque Te with reference to, for example, the map of FIG. As shown in FIG. 6, the injection timing command value IAt is advanced as the estimated torque Te increases and the estimated torque Te decreases, for example, under the condition that the engine rotational speed NE is constant. Indeed, it is retarded.
[0076]
Further, in step 112, the VNT opening command value VAt is calculated based on the engine speed NE and the estimated torque Te with reference to the map of FIG. 7, for example. As shown in FIG. 7, for example, under the condition that the engine rotational speed NE is constant, the VNT opening command value VAt increases as the estimated torque Te increases and decreases as the estimated torque Te decreases. It gets smaller.
[0077]
Therefore, during the shift of the transmission 60, instead of calculating the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt based on the fuel injection amount command value Qfin or the like, the accelerator depression amount ACCP or the like is calculated. , The injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt are calculated.
[0078]
After the processes of steps 109 to 112 are executed, the process proceeds to step 106 (FIG. 2), and it is determined whether or not the shift of the transmission 60 has been completed. If the determination is affirmative, the shift flag F is set to "0 (during non-shift)" (step 107).
[0079]
According to the embodiment described above, the following effects can be obtained.
(1) When temporarily reducing the fuel injection amount command value Qfin regardless of the accelerator depression amount ACCP (output request) at the time of shifting of the transmission 60, the injection pressure command value PFt, the injection timing command value IAt, and The VNT opening command value VAt is calculated based on the estimated torque Te or the like obtained from the accelerator pedal depression amount ACCP. This estimated torque Te is a theoretical output torque obtained during normal engine operation based on the accelerator depression amount ACCP at the time of shifting of the transmission 60. Since the output torque of the diesel engine 11 changes according to the fuel injection amount, the estimated torque Te has a value corresponding to the fuel injection amount according to the accelerator pedal depression amount ACCP (output request) at the time of shifting of the transmission 60. Therefore, by controlling the supply pump 29 and the pressure reducing valve 32 based on the injection pressure command value PFt obtained from the estimated torque Te or the like, even if the fuel injection amount command value Qfin is temporarily reduced during the shift of the transmission 60, The injection pressure is no longer temporarily reduced. Therefore, there is no response delay in increasing the injection pressure with respect to the increase in the fuel injection amount command value Qfin from the decrease state. Therefore, at the time of shifting of the transmission 60, the fuel injected is atomized by the injection pressure according to the fuel injection amount, so that the fuel particles are not completely burned out and no unburned residue is generated, and the exhaust gas is not discharged. Can be suppressed from increasing.
[0080]
(2) Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the injection timing is not temporarily retarded with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Since the fuel is injected at the injection timing according to the amount, the fuel efficiency can be improved. Further, when the load is low, it is necessary to make the over-advance angle based on the misfire countermeasure map, but according to the present embodiment, it is not necessary to use the over-advance angle region, so that the combustion noise can be reduced. .
[0081]
(3) Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the supercharging pressure is not temporarily reduced with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Air for combustion is supplied into the combustion chamber 18 by the supercharging pressure according to the amount. Therefore, the required amount of intake air for the diesel engine 11 with respect to the fuel injection amount can be ensured, no unburned fuel is generated, and an increase in the amount of particulates in exhaust gas can be suppressed. it can.
[0082]
(2nd Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS.
In this embodiment, when the transmission 60 shifts, fixed control for fixing the operation states of the supply pump 29 and the pressure reducing valve 32 to the state immediately before the shift is performed. Further, when the transmission 60 shifts, fixed control for fixing the injection timing of the fuel injection nozzle 26 to the state immediately before the shift is performed, and the VNT opening of the nozzle vane 39 of the variable nozzle turbocharger 34 is fixed to the state immediately before the shift. Fixed control is performed.
[0083]
With this fixed control, even if the fuel injection amount command value Qfin is temporarily reduced during the shift of the transmission 60, the supply pump 29 and the pressure reducing valve 32 are not controlled to lower the injection pressure. Further, the injection timing of the fuel injection nozzle 26 is not controlled to the retard side, and the VNT opening of the nozzle vane 39 of the variable nozzle turbocharger 34 is not controlled to be reduced.
[0084]
Accordingly, there is no response delay in the increase in the injection pressure with respect to the increase in the fuel injection amount command value Qfin from the decrease state, and the decrease in the injection pressure due to the response delay is suppressed. Also, there is no response delay in the change of the injection timing with respect to the increase in the fuel injection amount command value Qfin from the decrease state, and there is no response delay in the change of the VNT opening of the variable nozzle turbocharger 34. Reduction of the supercharging pressure due to the delay is suppressed.
[0085]
Here, the fixed control will be described in detail with reference to a time chart of FIG.
When a shift request is made (timing t1), an injection pressure command value PFt, an injection timing command value IAt, and a VNT opening command value VAt are calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE. During the shift of the transmission 60, the injection pressure command value PFt is fixed to the value calculated as described above, and is fixed as shown by a thick solid line in FIG. IAt is also fixed to the value calculated as described above, and is fixed as shown by the thick solid line in FIG. The VNT opening command value VAt is also constant as shown by the thick solid line in FIG.
[0086]
As a result, the operation states of the supply pump 29 and the pressure reducing valve 32 controlled based on the injection pressure command value PFt become constant, and the injection pressure also becomes constant as shown by the thick solid line in FIG. Further, the injection timing of the fuel injection nozzle 26 controlled based on the injection timing command value IAt is also constant as shown by the thick solid line in FIG. Further, the VNT opening of the variable nozzle turbocharger 34 controlled based on the VNT opening command value VAt also becomes constant as shown by the thick solid line in FIG.
[0087]
At the time of shifting of the transmission 60, when the fuel injection amount (fuel injection amount command value Qfin) is temporarily reduced, the injection pressure is kept constant and does not change to a lower side. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request) (after timing t2), a response delay occurs in the increase in the injection pressure with respect to the change. Is suppressed.
[0088]
Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the injection timing by the fuel injection nozzle 26 is fixed and is not changed to a lower side. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request), there is no response delay in increasing the injection timing in response to the change.
[0089]
Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the nozzle vane 39 changes so as to be constant without being controlled to temporarily reduce the supercharging pressure in accordance with the reduction. However, the supercharging pressure is not changed to a constant and reduced side. Therefore, when the fuel injection amount is increased from the temporary decrease state to the value corresponding to the accelerator depression amount ACCP (output request), there is no response delay in the increase of the supercharging pressure in response to the change.
[0090]
Next, a procedure for calculating the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt will be described. This command value calculation routine is executed by the ECU 52, for example, by interruption at predetermined time intervals. In the present embodiment, as the command value calculation routine, the processing of steps 109 to 112 (FIG. 4) in the command value calculation routine of the first embodiment is replaced with the processing of steps 201 to 204 shown in FIG. Used.
[0091]
Thus, in the command value calculation routine of the present embodiment, when a shift request is made, the shift flag F is set to “1 (during shift)” in the process of step 201.
Subsequently, in the process of step 202, a fixed injection pressure command value PFt is calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE. The injection pressure command value PFt is a value immediately before the shift, and the injection pressure command value PFt is fixed to the above value during the shift of the transmission 60.
[0092]
In the process of step 203, a fixed injection timing command value IAt is calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE. The injection timing command value IAt is also a value immediately before the shift, and the injection timing command value IAt is fixed to the above value during the shift of the transmission 60.
[0093]
In the process of step 204, the fixing VNT opening command value VAt is calculated based on the fuel injection amount command value Qfin and the engine rotation speed NE. The VNT opening command value VAt is also a value immediately before the shift, and the VNT opening command value VAt is fixed to the above value while the transmission 60 is shifting.
[0094]
According to the present embodiment, the following effects can be obtained.
(4) At the time of shifting of the transmission 60, fixed control for fixing the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening degree command value VAt to values immediately before the shift is executed. Therefore, the injection pressure is not temporarily reduced with respect to the temporarily reduced fuel injection amount command value Qfin, and the injection pressure is increased with respect to the increase in the fuel injection amount command value Qfin from the reduced state. No response delay occurs. Therefore, during the shift of the transmission 60, the injected fuel is atomized by the injection pressure according to the fuel injection amount, so that the fuel particles are not completely burned out and unburned residue is not generated, and the unburned fuel is not generated. An increase in the amount of particulates can be suppressed.
[0095]
(5) Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the injection timing is not temporarily retarded with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Since the fuel is injected at the injection timing according to the amount, the fuel efficiency can be improved. Further, when the load is low, it is necessary to make the over-advance angle based on the misfire countermeasure map, but according to the present embodiment, it is not necessary to use the over-advance angle region, so that the combustion noise can be reduced. .
[0096]
(6) Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the supercharging pressure is not temporarily reduced with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Air for combustion is supplied into the combustion chamber 18 by the supercharging pressure according to the amount. Therefore, the required amount of intake air for the diesel engine 11 with respect to the fuel injection amount can be ensured, no unburned fuel is generated, and an increase in the amount of particulates in exhaust gas can be suppressed. it can.
[0097]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS.
In this embodiment, at the time of shifting of the transmission 60, the injection pressure command value PFt, based on the post-shift torque Te2, which is the estimated torque Te immediately after the shift, and the post-shift engine speed NE2, which is the engine speed NE immediately after the shift, An injection timing command value IAt and a VNT opening command value VAt are calculated. By controlling the supply pump 29 and the pressure reducing valve 32 based on the injection pressure command value PFt, even if the fuel injection amount command value Qfin is temporarily reduced during shifting of the transmission 60, the supply pump 29 and the pressure reducing valve 32 are controlled. Is not controlled to lower the injection pressure. Further, the injection timing of the fuel injection nozzle 26 is no longer controlled to the retard side, and the opening of the nozzle vane 39 is controlled based on the VNT opening command value VAt, so that the nozzle vane 39 of the variable nozzle turbocharger 34 is controlled. Is not controlled to the side where the VNT opening is decreased.
[0098]
Accordingly, there is no response delay in the increase in the injection pressure with respect to the increase in the fuel injection amount command value Qfin from the decrease state, and the decrease in the injection pressure due to the response delay is suppressed. Also, there is no response delay in the change of the injection timing with respect to the increase in the fuel injection amount command value Qfin from the decrease state, and there is no response delay in the change of the VNT opening of the variable nozzle turbocharger 34. Reduction of the supercharging pressure due to the delay is suppressed.
[0099]
Here, the calculation of the post-shift torque Te2 and the post-shift engine rotation speed NE2, and the control based on the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt obtained therefrom are shown in FIG. This will be described with reference to a time chart.
[0100]
When a shift request is made (timing t1), an estimated torque at that time is calculated as a pre-shift torque Te1 based on the accelerator pedal depression amount ACCP (output request) and the engine speed NE. The engine speed NE at that time is used as the pre-shift engine speed NE1. Then, the pre-shift engine rotational speed NE1 and the pre-shift torque Te1 are multiplied by a predetermined coefficient corresponding to the post-shift gear position, and the like, so that the post-shift engine rotational speed NE2, And the post-shift torque Te2, which is the estimated torque Te immediately after the shift.
[0101]
An injection pressure command value PFt, an injection timing command value IAt, and a VNT opening command value VAt are calculated based on the post-shift engine rotational speed NE2 and the post-shift torque Te2. During the shifting of the transmission 60, the injection pressure command value PFt is set to the value calculated as described above as indicated by the thick solid line in FIG. 10F, and the injection timing command value IAt is also changed to the value shown in FIG. g) is a value calculated as described above as indicated by a thick solid line. The VNT opening command value VAt is also a value calculated as described above, as indicated by the thick solid line in FIG. The supply pump 29 and the pressure reducing valve 32 are controlled based on the injection pressure command value PFt, the fuel injection nozzle 26 is controlled based on the injection timing command value IAt, and the opening of the nozzle vane 39 is controlled based on the VNT opening command value VAt. Controlled.
[0102]
Changes in the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt after the timing t1 are indicated by thick solid lines in FIGS. 10 (f), 10 (g) and 10 (h). This may be done abruptly, as shown, or gradually, as shown by the thick dashed line.
[0103]
At the time of shifting of the transmission 60, the fuel injection amount (fuel injection amount command value Qfin) is temporarily reduced. At this time, the supply pump 29 and the pressure reducing valve 32 adjust the injection pressure command value obtained from the post-shift torque Te2 and the like. It is controlled based on PFt. For this reason, the supply pump 29 and the pressure reducing valve 32 are not changed to the side where the injection pressure is reduced due to the temporary decrease of the fuel injection amount, and the injection pressure is accordingly changed to the thick solid line in FIG. It changes so that it may become substantially constant as shown by. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request) (after timing t2), a response delay occurs in the increase of the injection pressure with respect to the change. There is no.
[0104]
Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the fuel injection nozzle 26 is controlled based on the injection timing command value IAt obtained from the post-shift torque Te2 and the like, and the fuel injection nozzle 26 performs the injection. The timing is fixed and will not be reduced. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request) (after timing t2), the change in the injection timing to the advance side with respect to the change is observed. No response delay occurs.
[0105]
Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the nozzle vanes 39 are controlled based on the VNT opening command value VAt obtained from the post-shift torque Te2 and the like, and the supercharging pressure is also constant. It does not change to the lower side. Therefore, when the fuel injection amount is increased from the temporary decrease state toward the value corresponding to the accelerator depression amount ACCP (output request) (after timing t2), a response delay occurs in the increase of the supercharging pressure in response to the change. Never.
[0106]
Next, a procedure for calculating the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt will be described. In the present embodiment, as the command value calculation routine, the processing of steps 109 to 112 (FIG. 4) in the command value calculation routine of the first embodiment is replaced with the processing of steps 301 to 306 shown in FIG. Used.
[0107]
For this reason, in the command value calculation routine of the present embodiment, when a shift request is made, the shift flag F is set to “1 (during shift)” in the process of step 301, and thereafter, the injection pressure based on the post-shift torque Te2 and the like. The command value PFt, the injection timing command value IAt, and the VNT opening command value VAt are calculated (steps 302 to 306).
[0108]
That is, in the process of step 302, the pre-shift torque Te1 is calculated based on the accelerator pedal depression amount ACCP and the engine speed NE. Further, in the process of step 303, the post-shift engine rotational speed NE2 and the post-shift torque Te2 are calculated based on the pre-shift engine rotational speed NE1, the pre-shift torque Te1, and the shift mode such as to which gear speed is to be shifted. You.
[0109]
In the process of step 304, the injection pressure command value PFt is calculated based on the post-shift torque Te2 and the post-shift engine rotation speed NE2. In the process of step 305, the injection timing command value IAt is calculated based on the post-shift torque Te2 and the post-shift engine rotation speed NE2. Then, in the process of step 306, the VNT opening command value VAt is calculated based on the post-shift torque Te2 and the post-shift engine rotation speed NE2.
[0110]
According to the present embodiment, the following effects can be obtained.
(7) When temporarily reducing the fuel injection amount command value Qfin regardless of the accelerator depression amount ACCP (output request) at the time of shifting of the transmission 60, the injection pressure command value PFt, the injection timing command value IAt, and The VNT opening command value VAt is calculated based on the post-shift torque Te2, which is the estimated torque Te immediately after the shift, and the like. The post-shift torque Te2 is a value predicted from the estimated torque Te immediately before the shift obtained from the accelerator depression amount ACCP (output request) immediately before the shift, the shift mode of the transmission 60, and the like. Since the output torque of the diesel engine 11 changes according to the fuel injection amount, the post-shift torque Te2 becomes a value corresponding to the fuel injection amount immediately after the shift of the transmission 60 in accordance with the accelerator pedal depression amount ACCP. Therefore, by controlling the supply pump 29 and the pressure reducing valve 32 based on the injection pressure command value PFt obtained from the post-shift torque Te2 and the like, even if the fuel injection amount command value Qfin is temporarily reduced during the shift of the transmission 60, Therefore, the injection pressure is not temporarily reduced. Therefore, there is no response delay in increasing the injection pressure with respect to the increase in the fuel injection amount command value Qfin from the decrease state. Therefore, at the time of shifting of the transmission 60, the injected fuel is atomized by the injection pressure according to the fuel injection amount, so that the fuel particles are not completely burned out and no unburned residue is generated, and the exhaust gas is not discharged. Can be suppressed from increasing.
[0111]
(8) Further, when the fuel injection amount is temporarily reduced during the shifting of the transmission 60, the injection timing is not temporarily retarded with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Since the fuel is injected at the injection timing according to the amount, the fuel efficiency can be improved. Further, when the load is low, it is necessary to make the over-advance angle based on the misfire countermeasure map, but according to the present embodiment, it is not necessary to use the over-advance angle region, so that the combustion noise can be reduced. .
[0112]
(9) Further, when the fuel injection amount is temporarily reduced during the shift of the transmission 60, the supercharging pressure is not temporarily reduced with respect to the fuel injection amount command value Qfin, and the fuel injection is not performed. Air for combustion is supplied into the combustion chamber 18 by the supercharging pressure according to the amount. Therefore, the required amount of intake air for the diesel engine 11 with respect to the fuel injection amount can be ensured, no unburned fuel is generated, and an increase in the amount of particulates in exhaust gas can be suppressed. it can.
[0113]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIG.
The configuration of the diesel engine 11 is the same as that of the first embodiment. In this embodiment, at the time of shifting of the transmission 60, based on an intermediate value between the estimated torque Te obtained during normal engine operation by the accelerator depression amount ACCP (output request) and the engine torque based on the actual fuel injection amount, An injection pressure command value PFt, an injection timing command value IAt, and a VNT opening command value VAt are calculated.
[0114]
As a result, the injection pressure command value PFt changes as shown by a thick solid line in FIG. 12F, and the injection timing command value IAt changes as shown by a thick solid line in FIG. 12G. Further, the VNT opening command value VAt changes as shown by a thick solid line in FIG.
[0115]
During the shift of the transmission 60, the supply pump 29 and the pressure reducing valve 32 are controlled based on the injection pressure command value PFt indicated by a thick solid line in FIG. Is controlled based on the injection timing command value IAt indicated by a thick solid line. The nozzle vanes 39 are controlled based on a VNT opening command value VAt indicated by a thick solid line in FIG.
[0116]
According to the present embodiment, substantially the same effects as (1) to (3) of the first embodiment can be obtained. At this time, in the first embodiment, at the time of shifting of the transmission 60, the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt are calculated based on the estimated torque Te obtained from the accelerator depression amount ACCP. Therefore, overcorrection may occur. However, in the present embodiment, the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening value are based on an intermediate value between the estimated torque Te obtained from the accelerator depression amount ACCP and the engine torque based on the actual fuel injection amount. The degree command value VAt is calculated. Therefore, the convergence of the injection pressure, the injection timing, and the supercharging pressure after the shift of the transmission 60 is completed can be improved.
[0117]
The above embodiments can be modified as follows, for example.
In each of the above embodiments, the transmission 60 capable of performing both the shift in the automatic mode and the shift in the manual mode has been described as an example. However, a transmission that performs the shift in only one of the modes may be employed. Good.
[0118]
In the first embodiment, the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt are calculated based on the estimated torque Te obtained from the accelerator pedal depression amount ACCP and the like at the time of shifting of the transmission 60. However, the present invention is not limited to this. For example, at the time of shifting of the transmission 60, the injection pressure command value PFt, the injection timing command value IAt, and the VNT opening command value VAt may be calculated based on the accelerator pedal depression amount ACCP and the engine speed NE.
[0119]
In the fourth embodiment, the injection pressure command value PFt and the injection timing are based on a value intermediate between the estimated torque Te obtained from the accelerator depression amount ACCP and the like at the time of shifting of the transmission 60 and the engine torque based on the actual fuel injection amount. The command value IAt and the VNT opening command value VAt were calculated. Instead of the estimated torque Te, the engine torque immediately before the shift in the second embodiment may be used, or the engine torque immediately after the shift in the third embodiment may be used.
[0120]
In each of the above embodiments, at the time of shifting of the transmission, only one or two of the control of the injection pressure, the injection timing, and the supercharging pressure may be performed. For example, the control may be performed based on a combination of the injection pressure and the injection timing, a combination of the injection timing and the supercharging pressure, or a combination of the injection pressure and the supercharging pressure.
[0121]
In each of the above embodiments, the present invention is embodied in a diesel engine having a common rail and a turbocharger, but may be embodied in a diesel engine not having at least one of a common rail and a turbocharger.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an entire diesel engine to which a control device according to a first embodiment is applied.
FIGS. 2A to 2H are time charts used to explain various controls of a diesel engine, a clutch mechanism, and a transmission at the time of shifting of the transmission according to the first embodiment.
FIG. 3 is a flowchart illustrating a command value calculation procedure according to the first embodiment.
FIG. 4 is a flowchart showing a procedure for calculating an injection pressure command value, an injection timing command value, and a supercharging pressure command value in the first embodiment.
FIG. 5 is a map used for calculating an injection pressure command value.
FIG. 6 is a map used for calculating an injection timing command value.
FIG. 7 is a map used for calculating a VNT opening command value.
FIGS. 8A to 8H are time charts used to explain various controls of a diesel engine, a clutch mechanism, and a transmission during shifting of a transmission according to a second embodiment.
FIG. 9 is a flowchart illustrating a command value calculation procedure according to the second embodiment.
FIGS. 10A to 10H are time charts used to explain various controls of a diesel engine, a clutch mechanism, and a transmission at the time of shifting of the transmission according to the third embodiment.
FIG. 11 is a flowchart illustrating a command value calculation procedure according to the third embodiment.
FIGS. 12A to 12H are time charts used to explain various controls of a diesel engine, a clutch mechanism, and a transmission during a shift operation of a transmission according to a fourth embodiment.
[Explanation of symbols]
Reference Signs List 11 diesel engine, 15 piston, 16 connecting rod, 17 crankshaft, 18 combustion chamber, 19 intake passage, 20 exhaust passage, 26 fuel injection nozzle as adjusting means, 27 adjusting means Common rail (pressure accumulator), 34: variable nozzle turbocharger (supercharger) as adjusting means, 45: accelerator pedal, 46: accelerator position sensor, 47: crank position sensor, 52: control means, clutch control means, torque control Electronic control unit (ECU) as means and shift control means, 60: transmission, 61: input shaft, 62: clutch mechanism, 63: input rotational speed sensor, 64: vehicle speed sensor, 65: shift lever, PF: injection Pressure, Te: estimated torque.

Claims (8)

Control means for controlling the fuel injection amount in response to the output request to the diesel engine, and controlling the adjusting means for adjusting the state quantity for optimizing the combustion state of the diesel engine based on the fuel injection amount;
Clutch control means for disengaging / engaging the clutch mechanism so as to automatically disconnect and connect the diesel engine and the transmission during shifting of a transmission connected to the diesel engine via a clutch mechanism; ,
At the time of shifting of the transmission, torque control means for temporarily reducing the fuel injection amount irrespective of the output request and reducing the engine output torque,
In a diesel engine control device with
A shift control unit for controlling the adjusting unit based on the output request, instead of controlling the adjusting unit based on the fuel injection amount when shifting the transmission; apparatus. The control device for a diesel engine according to claim 1,
The shift control unit is configured to control, based on an accelerator operation amount indicating a magnitude of an output request to the diesel engine during a shift of the transmission, an output torque of the engine obtained during normal engine operation by the accelerator operation at that time. Is calculated as an estimated torque, and the adjusting means is controlled based on the estimated torque. Control means for controlling the fuel injection amount in response to the output request to the diesel engine, and controlling the adjusting means for adjusting the state quantity for optimizing the combustion state of the diesel engine based on the fuel injection amount;
Clutch control means for disengaging / engaging the clutch mechanism so as to automatically disconnect and connect the diesel engine and the transmission during shifting of a transmission connected to the diesel engine via a clutch mechanism; ,
At the time of shifting of the transmission, in a diesel engine control device including a torque control means for temporarily reducing the fuel injection amount regardless of the output request and reducing the engine output torque,
At the time of shifting of the transmission, instead of controlling the adjusting means based on the fuel injection amount, shift control means for performing fixed control for fixing the adjusting means to a state immediately before the shift,
A control device for a diesel engine, comprising: Control means for controlling the fuel injection amount in response to the output request to the diesel engine, and controlling the adjusting means for adjusting the state quantity for optimizing the combustion state of the diesel engine based on the fuel injection amount;
Clutch control means for disengaging / engaging the clutch mechanism so as to automatically disconnect and connect the diesel engine and the transmission during shifting of a transmission connected to the diesel engine via a clutch mechanism; ,
At the time of shifting of the transmission, torque control means for temporarily reducing the fuel injection amount irrespective of the output request and reducing the engine output torque,
In a diesel engine control device with
Instead of controlling the adjusting means based on the fuel injection amount at the time of shifting of the transmission, the same diesel engine immediately after the shift is predicted from the output request to the diesel engine at that time and the shift mode of the transmission A control device for a diesel engine, comprising: a shift control unit that controls the adjusting unit based on an output torque of the diesel engine. The control device for a diesel engine according to claim 4,
The shift control means, when a shift of the transmission is performed, based on an accelerator operation amount indicating a magnitude of an output request to the diesel engine, the same engine obtained during normal engine operation by an accelerator operation immediately before a shift operation. A diesel engine control device that calculates an output torque of the engine as an estimated torque, and predicts an output torque of the engine immediately after the shift based on the estimated torque and a shift mode of the transmission. The control device for a diesel engine according to any one of claims 1 to 5,
The adjusting means includes a pressure accumulator that stores an injection pressure of fuel injected into the diesel engine, a fuel injection nozzle that injects fuel into the diesel engine, and an intake air to the diesel engine at a predetermined supercharging pressure. A diesel engine control device, which is at least one of a supercharger to be supplied. The control device for a diesel engine according to any one of claims 1 to 6,
The transmission is automatically shifted according to the driving condition of the vehicle,
The control device for a diesel engine, wherein the shift control unit starts control of at least one of the injection pressure, the injection timing, and the supercharging pressure when a shift request of the transmission is made. . The control device for a diesel engine according to any one of claims 1 to 6,
The transmission is shifted according to a shift operation of a driver, and the shift control unit is configured to control at least one of the injection pressure, the injection timing, and the supercharging pressure when a shift request of the transmission is made. A control device for a diesel engine, which starts control of one adjusting means.

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