Method and apparatus for starting an internal combustion engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01L-013/08
F02N-011/08
출원번호
US-0735049
(2007-12-11)
등록번호
US-8474429
(2013-07-02)
국제출원번호
PCT/CA2007/002354
(2007-12-11)
§371/§102 date
20100611
(20100611)
국제공개번호
WO2009/073951
(2009-06-18)
발명자
/ 주소
Bouchon, Nicolas
Strange, Martin
출원인 / 주소
Mosaid Technologies Inc.
대리인 / 주소
Iandiorio Teska & Coleman, LLP
인용정보
피인용 횟수 :
2인용 특허 :
16
초록▼
A method and apparatus for starting an internal combustion engine is disclosed. A motor is mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber and be
A method and apparatus for starting an internal combustion engine is disclosed. A motor is mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber and being mechanically coupled to a shaft for generating mechanical power. The method involves causing the motor to supply a positioning torque to the engine to move the at least one moveable element into a starting position, The method also involves causing the motor to supply a starting torque to the engine when the at least one moveable element is in the starting position to cause the moveable element to accelerate from the starting position under low compression conditions to generate sufficient momentum to overcome a peak compression condition in the chamber, thereby reducing the starting torque required to start the engine.
대표청구항▼
1. A method for starting an internal combustion engine having a motor mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber as the moveable element mov
1. A method for starting an internal combustion engine having a motor mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber as the moveable element moves from a low compression condition through a compression stroke to a peak compression condition, the engine being mechanically coupled to a shaft for generating mechanical power, the method comprising: calculating a reference positioning torque;causing the motor to supply the reference positioning torque to the engine to move the at least one moveable element in a direction opposite to a direction of the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of the engine; andcausing the motor to supply a starting torque to the engine. 2. The method of claim 1 wherein causing the motor to supply said reference positioning torque to move the at least one moveable element into said starting position comprises causing the motor to supply the reference positioning torque to the engine in an opposite direction to said starting torque, said reference positioning torque having a magnitude sufficient to cause the at least one moveable element to move to a position at which a force exerted on the moveable element by said reference torque matches a force exerted on the moveable element due to the compression condition in the chamber. 3. The method of claim 2 wherein causing the motor to supply said reference positioning torque comprises calculating said magnitude of said reference positioning torque in response to receiving a temperature signal representing an operating temperature of the engine. 4. The method of claim 1 wherein causing the motor to supply said reference positioning torque to move the at least one moveable element into said starting position comprises: causing the motor to supply torque to the engine to cause the moveable element to move in a direction opposite to a direction required to start the engine; andcausing the motor to discontinue supplying torque to the engine when said moveable element reaches said starting position. 5. The method of claim 4 wherein causing the motor to supply said reference positioning torque to the engine comprises causing the moveable element to move at a reference speed toward said starting position. 6. The method of claim 5 wherein causing the motor to discontinue supplying torque to the engine when said moveable element reaches said starting position comprises: receiving a signal representing one of: a magnitude of said torque supplied by the motor to maintain said reference speed; ora position of the at least one moveable element in the chamber; andcausing the motor to discontinue supplying torque to the engine when said signal meets a criterion. 7. The method of claim 4 wherein causing the motor to supply said reference positioning torque to the engine comprises causing the motor to supply the reference positioning torque to the engine to cause the moveable element to move toward said starting position. 8. The method of claim 7 wherein causing the motor to discontinue supplying torque to the engine when said moveable element reaches said starting position comprises: receiving a signal representing one of: a position of the at least one moveable element in the chamber; ora speed of said moveable element; andcausing the motor to discontinue supplying torque to the engine when said signal meets a criterion. 9. The method of claim 1 wherein the at least one moveable element comprises a piston received in a cylindrical chamber for reciprocating linear motion therein, the piston being mechanically coupled to a crankshaft for converting the reciprocating linear motion into rotary motion of the crankshaft and further comprising mechanically coupling the motor to the crankshaft to supply said reference positioning torque and said starting torque to said piston. 10. The method of claim 1 wherein said at least one moveable element comprises a plurality of pistons, each being received in a respective cylindrical chamber and coupled to a crankshaft such that, in operation, at least two of the plurality of pistons have peak compression conditions that occur spaced apart in time, and wherein causing the motor to supply said reference positioning torque to the engine comprises supplying a torque to the crankshaft to cause the plurality of pistons to move to one of at least two starting positions having a low compression condition. 11. The method of claim 1 wherein causing the motor to supply said reference positioning torque comprises causing the motor to supply the reference positioning torque to the engine in response to receiving an engine control signal having a signal state indicating that the engine has been stopped. 12. The method of claim 1 wherein causing the motor to supply said reference positioning torque comprises producing a motor control signal operable to cause an electrical current to be coupled to the motor to produce said reference positioning torque. 13. The method of claim 1 further comprising causing the motor to be configured in a generator mode once the engine has been started, the motor being operable to produce electrical energy in response to receiving a torque from the engine when configured in said generator mode. 14. The method of claim 1 further comprising decoupling the motor from the engine after the engine has been started. 15. The method of claim 14 wherein causing the motor to supply the reference positioning torque to the engine comprises mechanically coupling the motor to the engine when the engine is stopped. 16. The method of claim 1 wherein the engine comprises more than one moveable element and wherein causing the motor to supply said reference positioning torque comprises causing the motor to supply the reference positioning torque to the engine to move the at least one moveable element in a direction away from the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of another moveable element of the engine. 17. An apparatus for starting an internal combustion engine, the apparatus comprising: an electric motor mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to move to cause a changing compression condition within the chamber as the moveable element moves from a low compression condition through a compression stroke to a peak compression condition, the engine being mechanically coupled to a shaft for generating mechanical power;a controller, operably configured to: calculate a reference positioning torque;cause the motor to supply the reference positioning torque to the engine to move the at least one moveable element in a direction opposite to a direction of the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of the engine; andcause the motor to supply a starting torque to the engine when4he engine. 18. The apparatus of claim 17 wherein said controller is operably configured to cause the motor to supply the reference positioning torque to the engine in an opposite direction to said starting torque, said reference positioning torque having a magnitude sufficient to cause the at least one moveable element to move to a position at which a force exerted on the moveable element by said reference torque matches a force exerted on the moveable element due to the compression condition in the chamber. 19. The apparatus of claim 18 wherein said controller is operably configured to calculate said magnitude of said reference positioning torque in response to receiving a temperature signal representing an operating temperature of the engine. 20. The apparatus of claim 17 wherein said controller is operably configured to: cause the motor to supply torque to the engine to cause the moveable element to move in a direction opposite to a direction required to start the engine; andcause the motor to discontinue supplying torque to the engine when said moveable element reaches said starting position. 21. The apparatus of claim 17 wherein said controller is operably configured to cause the motor to supply said reference positioning torque by causing the moveable element to move at a reference speed toward said starting position. 22. The apparatus of claim 21 wherein said controller is operably configured to: receive a signal representing one of: a magnitude of said torque supplied by the motor to maintain said reference speed; ora position of the at least one moveable element in the chamber; andcause the motor to discontinue supplying torque to the engine when said signal meets a criterion. 23. The apparatus of claim 17 wherein said controller is operably configured to cause the motor to supply said reference positioning torque by causing the motor to supply a reference torque to the engine to cause the moveable element to move toward said starting position. 24. The apparatus of claim 23 wherein said controller is operably configured to: receive a signal representing one of: a position of the at least one moveable element in the chamber; ora speed of said moveable element; andcause the motor to discontinue supplying torque to the engine when said signal meets a criterion. 25. The apparatus of claim 17 wherein the at least one moveable element comprises a piston received in a cylindrical chamber for reciprocating linear motion therein, the piston being mechanically coupled to a crankshaft for converting the reciprocating linear motion into rotary motion of the crankshaft and wherein the motor is operably configured to be coupled to the crankshaft to supply said reference positioning torque and said starting torque to said piston. 26. The apparatus of claim 17 wherein said at least one moveable element comprises a plurality of pistons, each being received in a respective cylindrical chamber and coupled to a crankshaft such that, in operation, at least two of the plurality of pistons have peak compression conditions that occur spaced apart in time, and wherein said controller is operably configured to cause the motor to supply said reference positioning torque to the engine by supplying a torque to the crankshaft to cause the plurality of pistons to move to one of at least two starting positions having a low compression condition. 27. The apparatus of claim 17 wherein said controller is operably configured to cause the motor to supply said reference positioning torque to the engine in response to receiving an engine control signal having a signal state indicating that the engine has been stopped. 28. The apparatus of claim 17 wherein the engine is operably configured to couple the mechanical power produced by the engine to at least one drive wheel of a vehicle and wherein said controller is operably configured to produce a motor control signal operable to cause an electrical current to be coupled to the motor to produce said reference positioning torque. 29. The apparatus of claim 17 wherein the motor is operable to be configured in a generator mode once the engine has been started, the motor being operable to produce electrical energy in response to receiving a torque from the engine when configured in said generator mode. 30. The apparatus of claim 17 wherein the motor is operably configured to decouple from the engine after the engine has been started. 31. The apparatus of claim 30 wherein the motor is operably configured supply the reference positioning torque to the engine by mechanically coupling the motor to the engine when the engine is stopped. 32. The apparatus of claim 17 wherein the engine comprises more than one moveable element and wherein the controller is operably configured to cause the motor to supply said reference positioning torque by causing the motor to supply a positioning torque to the engine to move the at least one moveable element in a direction away from the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of another moveable element of the engine. 33. An apparatus for starting an internal combustion engine having an electric motor mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber as the moveable element moves from a low compression condition through a compression stroke to a peak compression condition, the engine being mechanically coupled to a shaft for generating mechanical power, the apparatus comprising: means for calculating a reference positioning torque;means for causing the motor to supply the reference positioning torque to the engine to move the at least one moveable element in a direction opposite to a direction of the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of the engine; andmeans for causing the motor to supply a starting torque to the engine. 34. The apparatus of claim 33 wherein the engine comprises more than one moveable element and wherein said means for causing the motor to supply said reference positioning torque comprises means for causing the motor to supply a positioning torque to the engine to move the at least one moveable element in a direction away from the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of another moveable element of the engine. 35. A computer readable medium encoded with codes for directing a processor circuit to start an internal combustion engine, the internal combustion engine having an electric motor mechanically coupled to the engine, the engine having at least one moveable element mounted in a chamber, the moveable element being operable to cause a changing compression condition within the chamber as the moveable element moves from a low compression condition through a compression stroke to a peak compression condition, the engine being mechanically coupled to a shaft for generating mechanical power, the codes directing the processor circuit to: calculate a reference positioning torque;cause the motor to supply the reference positioning torque to the engine to move the at least one moveable element in a direction opposite to a direction of the compression stroke into a starting position where the positioning torque is opposed by a compression condition due to a firing stroke of the engine; andcause the motor to supply a starting torque to the engine.
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