Method and apparatus for controlling the cylinder torque of a combustion engine having electromagnetically driven valves
First Claim
Patent Images
1. An internal combustion engine comprising:
- electromagnetic driving valve mechanisms that drive a plurality of intake and exhaust valves of the internal combustion engine in an opening direction and a closing direction;
a target cylinder torque calculator that calculates a target cylinder torque individually for at least one of a plurality of cylinders in accordance with a target engine torque required of the internal combustion engine;
a valve timing determiner that determines a timing for opening and closing of the plurality of intake and exhaust valves in accordance with the target cylinder torque; and
a valve controller that controls the electromagnetic driving valve mechanisms in accordance with the timing for opening and closing at least one of the intake and exhaust valves.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and apparatus controls an internal combustion engine having electromagnetically driven valves. A target cylinder torque required of one of a plurality of cylinders is individually calculated in accordance with a target engine torque, and a timing for opening and closing each of a plurality of intake and exhaust valves in each of the plurality of cylinders is determined in accordance with the target cylinder torque. Thereby the torque of the internal combustion engine is individually controlled for each of the plurality of cylinders.
109 Citations
19 Claims
-
1. An internal combustion engine comprising:
-
electromagnetic driving valve mechanisms that drive a plurality of intake and exhaust valves of the internal combustion engine in an opening direction and a closing direction;
a target cylinder torque calculator that calculates a target cylinder torque individually for at least one of a plurality of cylinders in accordance with a target engine torque required of the internal combustion engine;
a valve timing determiner that determines a timing for opening and closing of the plurality of intake and exhaust valves in accordance with the target cylinder torque; and
a valve controller that controls the electromagnetic driving valve mechanisms in accordance with the timing for opening and closing at least one of the intake and exhaust valves. - View Dependent Claims (2, 3, 4, 5, 6, 7, 17, 18)
the target cylinder torque calculator individually calculates the target cylinder torque for each of the plurality of cylinders;
the valve timing determiner determines the timing for opening and closing each of the plurality of intake and exhaust valves for each of the plurality of cylinders in accordance with the target cylinder torque for each of the plurality of cylinders; and
the valve controller controls the electromagnetic driving valve mechanisms in accordance with the timing for opening and closing each of the intake and exhaust valves for each of the plurality of cylinders.
-
-
3. The internal combustion engine according to claim 1, wherein:
the target engine torque is a value that reflects acceleration-deceleration shock absorbing torque.
-
4. The internal combustion engine according to claim 1, further comprising:
-
a continuously variable transmission having an inertia torque and capable of changing a gear-change ratio automatically, continuously and non-stepwise;
wherein the target engine torque is a value that reflects the inertia torque of the continuously variable transmission.
-
-
5. The internal combustion engine according to claim 1, further comprising:
a fuel injection controller that determines at least one of a fuel injection amount and a fuel injection timing for each of the plurality of cylinders in accordance with the target cylinder torque calculated by the target cylinder torque calculator.
-
6. The internal combustion engine according to claim 1, further comprising:
-
an intake throttle valve disposed in an intake passage of the internal combustion engine to variably adjust an amount of air flowing through the intake passage; and
a valve opening degree determiner that determines an opening degree for the intake throttle valve in accordance with the target cylinder torque calculated by the target cylinder torque calculator.
-
-
7. The internal combustion engine according to claim 1, further comprising:
-
an intake manifold negative pressure detector that detects an intake manifold negative pressure generated in an intake passage of the internal combustion engine;
wherein the valve timing determiner determines a timing for opening and closing each of the plurality of the intake and exhaust valves based on the target cylinder torque calculated by the target cylinder torque calculator and the intake manifold negative pressure.
-
-
17. The internal combustion engine according to claim 1, further comprising:
-
a continuously variable transmission having an inertia torque and capable of changing a gear-change ratio automatically, continuously and non-stepwise, wherein the target engine torque is a value that reflects the inertia torque of the continuously variable transmission, the inertia torque is determined in accordance with the rotational speed of input shaft of the continuously variable transmission.
-
-
18. The internal combustion engine according to claim 1, further comprising:
-
an intake manifold negative pressure detector that detects an intake manifold negative pressure generated in an intake passage of the internal combustion engine; and
an intake throttle valve disposed in an intake passage of the internal combustion engine to variably adjust an amount of air flowing in the intake passage, wherein the valve timing determiner determines the timing for opening and closing each of the plurality of the intake and exhaust valves based on the target cylinder torque calculated by the target cylinder torque calculator and the intake manifold negative pressure changed by the movement of the intake throttle valve.
-
-
8. A method for controlling at least one of a plurality of intake and exhaust valves of a plurality of cylinders in an internal combustion engine comprising:
-
individually calculating a target cylinder torque required for at least one of the plurality of cylinders in accordance with a target engine torque required of the internal combustion engine;
determining a timing for opening and closing the at least one of the plurality of intake and exhaust valves in accordance with the target cylinder torque; and
electromagnetically controlling the plurality of intake and exhaust valves in accordance with the timing for opening and closing the at least one of the plurality of intake and exhaust valves. - View Dependent Claims (9, 10, 11, 12, 19)
the step of calculating a target cylinder torque includes individually calculating the target cylinder torque for each of the plurality of cylinders of the internal combustion engine; and
the step of determining a timing includes determining the timing for opening and closing each of the intake and exhaust valves for each of the plurality of cylinders in accordance with the target cylinder torque calculated for each of the plurality of cylinders.
-
-
10. The method according to claim 8, further comprising:
determining at least one of a fuel injection amount and a fuel injection timing for each of the plurality of cylinders in accordance with the target cylinder torque.
-
11. The method according to claim 8, further comprising:
adjusting an amount of air flowing through an intake passage of internal combustion engine based on the target cylinder torque.
-
12. The method according to claim 8, further comprising:
-
detecting an intake manifold negative pressure generated in an intake passage of the internal combustion engine, wherein;
the step of determining the timing for opening and closing at least one of the plurality of intake and exhaust valves is based on the target cylinder torque and the intake manifold negative pressure.
-
-
19. The method of according to claim 8, further comprising:
- detecting an intake manifold negative pressure generated in an intake passage of the internal combustion engine,
wherein the step of determining the timing for opening and closing at least one of the plurality of intake and exhaust valves is based on the target cylinder torque and the intake manifold negative pressure changed by the movement of the intake throttle valve.
- detecting an intake manifold negative pressure generated in an intake passage of the internal combustion engine,
-
13. An internal combustion engine comprising:
- ;
electromagnetic driving valve mechanisms that drive a plurality of intake and exhaust valves of the internal combustion engine in an opening direction and a closing direction;
a target cylinder torque calculator that calculates a target cylinder torque in accordance with the target engine torque required of the internal combustion engine, the target cylinder torque being used fore less than all of the plurality of cylinders;
a valve timing determiner that determines a timing for opening and closing of the plurality of intake and exhaust valves in accordance with the target cylinder torque; and
a valve controller that controls the electromagnetic driving valve mechanisms in accordance with the timing for opening and closing at least one of the intake and exhaust valves. - View Dependent Claims (14, 15)
- ;
-
16. A method for controlling at least one of a plurality of intake and exhaust valves of a plurality of cylinders in an internal combustion engine comprising:
-
calculating a target cylinder torque required in accordance with the target engine torque required of the internal combustion engine, the target cylinder torque being used for less than all of the plurality of cylinders;
determining a timing for opening and closing the at least of one of the plurality of intake and exhaust valves in accordance with the target cylinder torque; and
electromagnetically controlling the plurality of intake and exhaust valves in accordance with the timing for opening and closing the at least one of the plurality of intake and exhaust valves.
-
Specification