Control device and control method for lean-burn engine

US 5,778,856 A
Filed: 09/28/1995
Issued: 07/14/1998
Est. Priority Date: 12/28/1993
Status: Expired due to Fees

First Claim

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1. A control device for a lean-burn engine, comprising:

load state detecting means for detecting a load state of the engine;

fuel supply means for supplying fuel to the engine;

intake air amount adjusting means for adjusting an amount of intake air supplied to the engine; and

control means for controlling said intake air amount adjusting means according to the engine load state detected by said load state detecting means, so as to cause that change in the load state which permits a difference between output torques of the engine before and after switching to be reduced or canceled, when the switching is made from driving with a first air-fuel ratio which is set equal to a theoretical air-fuel ratio or on a fuel-rich side with respect thereto to driving with a second air-fuel ratio which is set on a fuel-lean side with respect to the theoretical air-fuel ratio, whereinsaid intake air amount adjusting means includes an intake flow rate control valve provided in an intake passage for introducing the intake air into a combustion chamber of the engine,said control means includes target air-fuel ratio setting means for setting a target air-fuel ratio according to a driving state of the engine, and fuel amount setting means for setting a fuel amount to realize the target air-fuel ratio thus set;

said fuel supply means supplies the fuel to the engine in accordance with the fuel amount set by said fuel amount setting means; and

said target air-fuel ratio setting means includes follow-up changing means for successive iterative changing the air-fuel ratio to follow a change in an actual intake air amount at a time of switching from the driving with the first air-fuel ratio to the driving with the second air-fuel ratio.

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Abstract

A control device of a lean-burn engine has an electronic control unit. Upon start of switching from stoichiometric driving to lean driving, the control unit (10) derives, from a map, a target pressure (P0) and a basic opening degree (D0) of an idling speed control valve, serving as an air bypass valve, based on the throttle opening degree (TPS) and the engine rotation speed (Ne) at the start of the switching. The control unit supplies driving pulses (N) of a number corresponding to the basic opening degree (D0) to a stepper motor (32) of the idling speed control valve. Then, the control unit supplies the stepper motor with driving pulses of a number corresponding to an opening degree correction amount (D1) which in turn corresponds to a deviation between the target intake pressure (P0) and an actual intake pressure (PB), to thereby suppress a change in the torque at the time of switching between the rich driving, including the stoichiometric driving, and the lean driving of the lean-burn engine.

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18 Claims

1. A control device for a lean-burn engine, comprising:
- load state detecting means for detecting a load state of the engine;
  
  fuel supply means for supplying fuel to the engine;
  
  intake air amount adjusting means for adjusting an amount of intake air supplied to the engine; and
  
  control means for controlling said intake air amount adjusting means according to the engine load state detected by said load state detecting means, so as to cause that change in the load state which permits a difference between output torques of the engine before and after switching to be reduced or canceled, when the switching is made from driving with a first air-fuel ratio which is set equal to a theoretical air-fuel ratio or on a fuel-rich side with respect thereto to driving with a second air-fuel ratio which is set on a fuel-lean side with respect to the theoretical air-fuel ratio, whereinsaid intake air amount adjusting means includes an intake flow rate control valve provided in an intake passage for introducing the intake air into a combustion chamber of the engine,said control means includes target air-fuel ratio setting means for setting a target air-fuel ratio according to a driving state of the engine, and fuel amount setting means for setting a fuel amount to realize the target air-fuel ratio thus set;
  
  said fuel supply means supplies the fuel to the engine in accordance with the fuel amount set by said fuel amount setting means; and
  
  said target air-fuel ratio setting means includes follow-up changing means for successive iterative changing the air-fuel ratio to follow a change in an actual intake air amount at a time of switching from the driving with the first air-fuel ratio to the driving with the second air-fuel ratio.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. A control device for a lean-burn engine according to claim 1, wherein the first air-fuel ratio is set to a first value which is substantially constant, and the second air-fuel ratio is set according to the engine load state detected by said load state detecting means.
  - 3. A control device for a lean-burn engine according to claim 2, wherein the first air-fuel ratio is set to the theoretical air-fuel ratio.
  - 4. A control device for a lean-burn engine according to claim 1, further including:
    - rotation speed detecting means for detecting a rotation speed of the engine;
      
      wherein the first air-fuel ratio is set to a substantially constant value, the second air-fuel ratio is set according to at least the engine rotation speed detected by said rotation speed detecting means, and said control means controls said intake air amount adjusting means according to the engine rotation speed detected by said rotation speed detecting means and the engine load state detected by said load state detecting means.
  - 5. A control device for a lean-burn engine according to claim 1, wherein the first air-fuel ratio is set to the theoretical air-fuel ratio.
  - 6. The control device for a lean-burn engine according to claim 1, wherein said intake air flow rate control valve includes a bypass valve provided in a throttle bypass passage.
  - 7. A control device for a lean-burn engine according to claim 6, further including:
    - rotation speed detecting means for detecting a rotation speed of the engine;
      
      wherein said control means controls drive of said bypass valve according to that controlled amount of an opening degree which is set based on the engine rotation speed detected by said rotation speed detecting means and the engine load state detected by said load state detecting means, so as to increase the air amount by a quantity which is set based on the load state detected by said load state detecting means.
  - 8. A control device for a lean-burn engine according to claim 7, wherein said load detecting means includes a throttle opening degree sensor.
  - 9. A control device for a lean-burn engine according to claim 7, wherein said load detecting means includes a pressure sensor for detecting a negative pressure on a downstream side of a throttle valve.
  - 10. A control device for a lean-burn engine according to claim 7, wherein said load detecting means includes an air flow sensor, and is operable to detect intake air amount information for one intake stroke in the engine based on an output of said air flow sensor.
  - 11. A control device for a lean-burn engine according to claim 1, wherein said follow-up changing means includes transitional target air-fuel ratio setting means for setting a transitional target air-fuel ratio which gradually changes from the air-fuel ratio just prior to start of switching of driving states to reach a final target air-fuel ratio after the switching, and the transitional target air-fuel ratio is set such that a changing rate of the transitional target air-fuel ratio will become higher as a rotation speed of the engine becomes higher.
  - 12. The control device for a lean-burn engine according to claim 1, wherein said follow-up changing means includes transitional target air-fuel ratio setting means for setting a transitional target air-fuel ratio which gradually changes from the air-fuel ratio Just prior to start of switching of driving states to a final target air-fuel ratio after the switching;
    - andsaid transitional target air-fuel ratio setting means sets the transitional target air-fuel ratio such that a changing rate of the transitional target air-fuel ratio will be changed from a rate corresponding to a high rotation speed driving state of the engine to a rate corresponding to a low rotation speed driving state.
  - 13. The control device for a lean-burn engine according to claim 1, wherein said follow-up changing means includes transitional target air-fuel ratio setting means for setting a transitional target air-fuel ratio which gradually changes from a air-fuel ratio Just prior to start of switching of driving states to a final target air-fuel ratio after the switching, and change inhibiting/suppressing means for inhibiting or suppressing a change in the transitional target air-fuel ratio in a time period immediately after the switching of the driving states.
  - 14. A control device for a lean-burn engine according to claim 13, wherein said correction means includes memory means for storing intake air amounts which have no relation to the switching to the driving with the second air-fuel ratio in correspondence to throttle opening degrees and engine rotation speeds.

15. A control method for a lean-burn engine, comprising the steps of:
- (a) detecting a load state of the engine; and
  
  (b) controlling an amount of intake air supplied to the engine according to the detected engine load state, so as to cause that change in the load state which permits a difference between output torques of the engine before and after switching to be reduced or canceled, when the switching is made from driving with a first air-fuel ratio which is set equal to a theoretical air-fuel ratio or on a fuel-rich side with respect thereto to driving with a second air-fuel ratio which is set on a fuel-lean side with respect to the theoretical air-fuel ratio, whereinsaid step (b) includes the sub-steps of;
  
  (b1) setting a target air-fuel ratio according to a driving state of the engine;
  
  (b2) setting a fuel amount to realize the target air-fuel ratio set in said sub-step (b1); and
  
  (b3) supplying fuel to the engine according to the fuel amount set in said sub-step (b2), andwherein said sub-step (b1) includes a sub-step (b11) of successive iterative changing air-fuel ratio to follow a change in actual intake air amount when the switching is made from the driving with the first air fuel ratio to the driving with the second air-fuel ratio.
- View Dependent Claims (16, 17, 18)
- - 16. A control method for a lean-burn engine according to claim 15, wherein said step (b) includes the sub-steps of:
    - detecting a rotation speed of the engine;
      
      setting a quantity by which an air amount is to be increased based on the load state detected in said step (a);
      
      setting a controlled amount of an opening degree based on the detected engine load state and the detected engine rotation speed; and
      
      controlling drive of a bypass valve, disposed in a bypass passage provided to bypass a throttle valve in an intake passage of the engine, according to the set controlled amount of the opening degree so as to permit the air amount to increase by the set quantity.
  - 17. A control method for a lean-burn engine according to claim 15, wherein said step (b) includes the sub-steps of:
    - delaying ignition timing of the engine according to a change in an actual intake air amount towards an increasing side;
      
      controlling the ignition timing towards an advance side and setting air-fuel ratio to increase of the ignition timing and controlling the air-fuel ratio towards a lean side, after execution of said sub-step of delaying the ignition timing.
  - 18. A control method for a lean-burn engine according to claim 15, wherein said sub-step (b11) includes a sub-step of setting a transitional target air-fuel ratio which gradually changes from the air-fuel ratio just prior to start of the switching of driving states to reach a final target air-fuel ratio after the switching, and the transitional target air-fuel ratio is set such that a changing rate of the transitional target air-fuel ratio will become higher as a rotation speed of the engine becomes higher.

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Current Assignee
Mitsubishi Jidosha Kogyo Kabushiki Kaisha
Original Assignee
Mitsubishi Jidosha Kogyo Kabushiki Kaisha
Inventors
Ishida, Masaji, Okada, Kojiro, Togai, Kazuhide
Primary Examiner(s)
Dolinar, Andrew M.

Application Number

US08/501,050
Time in Patent Office

1,020 Days
Field of Search

123/327, 123/680-684, 123/585-587, 123/406, 123/417, 123/339.23, 123/478, 123/480
US Class Current

123/406.47
CPC Class Codes

F02D 37/02   one of the functions being ...

F02D 41/1456   with sensor output signal b...

F02D 41/1475   Regulating the air fuel rat...

F02D 41/3011   according to or using speci...

F02D 41/307   to avoid torque shocks

Control device and control method for lean-burn engine

First Claim

3 Assignments

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Abstract

19 Citations

18 Claims

Specification

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Control device and control method for lean-burn engine

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

19 Citations

18 Claims

Specification

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Solutions

Use Cases

Quick Links