IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0477497
(2006-06-30)
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등록번호 |
US-7270112
(2007-09-18)
|
우선권정보 |
JP-2005-213620(2005-07-25) |
발명자
/ 주소 |
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출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
11 인용 특허 :
1 |
초록
▼
For an internal combustion engine having an in-cylinder injector and an intake manifold injector, setting of the ratio of fuel injection (DI ratio) between these injectors is changed depending on whether the intake manifold injector is in a high temperature state or a non-high temperature state (nor
For an internal combustion engine having an in-cylinder injector and an intake manifold injector, setting of the ratio of fuel injection (DI ratio) between these injectors is changed depending on whether the intake manifold injector is in a high temperature state or a non-high temperature state (normal state). Specifically, when the intake manifold injector is at a high temperature, the setting of the DI ratio is controlled so that the quantity of fuel to be injected from the intake manifold injector is larger than that according to setting of the fuel injection quantity in the normal state under the same engine conditions.
대표청구항
▼
What is claimed is: 1. A control apparatus for an internal combustion engine having first fuel injection means for injecting fuel into a cylinder and second fuel injection means for injecting fuel into an intake manifold, said control apparatus comprising: temperature acquiring means for acquiring
What is claimed is: 1. A control apparatus for an internal combustion engine having first fuel injection means for injecting fuel into a cylinder and second fuel injection means for injecting fuel into an intake manifold, said control apparatus comprising: temperature acquiring means for acquiring temperature of said second fuel injection means; and fuel injection control means for controlling, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection means and a quantity of fuel to be injected from said second fuel injection means, wherein said fuel injection control means includes first fuel injection ratio setting means for setting, when the temperature of said second fuel injection means is lower than a predetermined temperature, said fuel injection ratio based on the state of said internal combustion engine, and second fuel injection ratio setting means for setting, when the temperature of said second fuel injection means is at least the predetermined temperature, said fuel injection ratio based on the state of said internal combustion engine, and said second fuel injection ratio setting means sets said fuel injection ratio based on a state of said internal combustion engine so that a quantity of fuel to be injected into the intake manifold by said second fuel injection means is at least a quantity of fuel to be injected into the intake manifold that is determined in accordance with said fuel injection ratio which is set based on the same state of said internal combustion engine by said first fuel injection ratio setting means. 2. The control apparatus for the internal combustion engine according to claim 1, wherein said second fuel injection ratio setting means sets said fuel injection ratio so that a ratio of fuel injection by said second fuel injection means is larger than a predetermined value. 3. The control apparatus for the internal combustion engine according to claim 1, wherein said second fuel injection ratio setting means sets said fuel injection ratio so that the quantity of fuel to be injected from said second fuel injection means is larger than a predetermined quantity. 4. The control apparatus for the internal combustion engine according to claim 1, wherein for a region corresponding to a state of said internal combustion engine where fuel is injected by means of both of said first and second fuel injection means, a minimum value of a ratio of fuel injection by said second fuel injection means that is determined in accordance with said fuel injection ratio which is set by said second fuel injection ratio setting means is larger than a minimum value of a ratio of fuel injection by said second fuel injection means that is determined in accordance with said fuel injection ratio which is set by said first fuel injection ratio setting means. 5. A control apparatus for an internal combustion engine having first fuel injection means for injecting fuel into a cylinder and second fuel injection means for injecting fuel into an intake manifold, said control apparatus comprising: temperature acquiring means for acquiring temperature of said second fuel injection means; first fuel injection control means for controlling, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection means and a quantity of fuel to be injected from said second fuel injection means; and second fuel injection control means for controlling said fuel injection ratio so that said total quantity of fuel to be injected is injected from said first fuel injection means, when the temperature of said second fuel injection means is at least a predetermined temperature and said internal combustion engine is in a region corresponding to an operation state where a quantity of fuel that is to be injected from said second fuel injection means and that is set by said first fuel injection control means is at most a predetermined quantity. 6. A control apparatus for an internal combustion engine having a first fuel injection mechanism for injecting fuel into a cylinder and a second fuel injection mechanism for injecting fuel into an intake manifold, said control apparatus comprising: a temperature acquiring portion configured to acquire temperature of said second fuel injection mechanism; and a fuel injection control portion configured to control, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection mechanism and a quantity of fuel to be injected from said second fuel injection mechanism, wherein said fuel injection control portion includes a first fuel injection ratio setting portion configured to set, when the temperature of said second fuel injection mechanism is lower than a predetermined temperature, said fuel injection ratio based on the state of said internal combustion engine, and a second fuel injection ratio setting portion configured to set, when the temperature of said second fuel injection mechanism is at least the predetermined temperature, said fuel injection ratio based on the state of said internal combustion engine, and said second fuel injection ratio setting portion is configured to set said fuel injection ratio based on a state of said internal combustion engine so that a quantity of fuel to be injected into the intake manifold by said second fuel injection mechanism is at least a quantity of fuel to be injected into the intake manifold that is determined in accordance with said fuel injection ratio which is set based on the same state of said internal combustion engine by said first fuel injection ratio setting portion. 7. The control apparatus for the internal combustion engine according to claim 6, wherein said second fuel injection ratio setting portion is configured to set said fuel injection ratio so that a ratio of fuel injection by said second fuel injection mechanism is larger than a predetermined value. 8. The control apparatus for the internal combustion engine according to claim 6, wherein said second fuel injection ratio setting portion is configured to set said fuel injection ratio so that the quantity of fuel to be injected from said second fuel injection mechanism is larger than a predetermined quantity. 9. The control apparatus for the internal combustion engine according to claim 6, wherein for a region corresponding to a state of said internal combustion engine where fuel is injected by means of both of said first and second fuel injection mechanisms, a minimum value of a ratio of fuel injection by said second fuel injection mechanism that is determined in accordance with said fuel injection ratio which is set by said second fuel injection ratio setting portion is larger than a minimum value of a ratio of fuel injection by said second fuel injection mechanism that is determined in accordance with said fuel injection ratio which is set by said first fuel injection ratio setting portion. 10. A control apparatus for an internal combustion engine having a first fuel injection mechanism for injecting fuel into a cylinder and a second fuel injection mechanism for injecting fuel into an intake manifold, said control apparatus comprising: a temperature acquiring portion configured to acquire temperature of said second fuel injection mechanism; a first fuel injection control portion configured to control, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection mechanism and a quantity of fuel to be injected from said second fuel injection mechanism; and a second fuel injection control portion configured to control said fuel injection ratio so that said total quantity of fuel to be injected is injected from said first fuel injection mechanism, when the temperature of said second fuel injection mechanism is at least a predetermined temperature and said internal combustion engine is in a region of a state where a quantity of fuel that is to be injected from said second fuel injection mechanism and that is set by said first fuel injection control portion is at most a predetermined quantity. 11. An engine system comprising: an internal combustion engine having a first fuel injection mechanism for injecting fuel into a cylinder and a second fuel injection mechanism for injecting fuel into an intake manifold; and a control apparatus controlling said internal combustion engine, wherein said control apparatus acquires temperature of said second fuel injection mechanism, and controls, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection mechanism and a quantity of fuel to be injected from said second fuel injection mechanism, and said control apparatus further sets said fuel injection ratio based on a state of said internal combustion engine, when the temperature of said second fuel injection mechanism is at most a predetermined temperature, so that a quantity of fuel to be injected into the intake manifold by said second fuel injection mechanism is at least a quantity of fuel that is to be injected into the intake manifold and that is determined in accordance with said fuel injection ratio which is set based on the same state of said internal combustion engine when the temperature of said second fuel injection mechanism is lower than the predetermined temperature. 12. An engine system comprising: an internal combustion engine having a first fuel injection mechanism for injecting fuel into a cylinder and a second fuel injection mechanism for injecting fuel into an intake manifold; and a control apparatus controlling said internal combustion engine, wherein said control apparatus acquires temperature of said second fuel injection mechanism, and controls, based on a state of said internal combustion engine, a required total quantity of fuel to be injected as well as a fuel injection ratio between a quantity of fuel to be injected from said first fuel injection mechanism and a quantity of fuel to be injected from said second fuel injection mechanism, and said control apparatus further controls said fuel injection ratio so that said total quantity of fuel to be injected is injected from said first fuel injection mechanism when the temperature of said second fuel injection mechanism is at least a predetermined temperature, under the condition that said internal combustion engine is in a region of an operating state where a quantity of fuel to be injected from said second fuel injection mechanism is at most a predetermined quantity when the temperature of said second fuel injection mechanism is lower than said predetermined temperature.
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