IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0184630
(1980-09-08)
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우선권정보 |
IT-0025586 (1979-09-10) |
발명자
/ 주소 |
- De Angelis Giancarlo (Milan ITX) Catastini Alberto (Corsico ITX) Bassi Aldo (Milan ITX) Rogora Edoardo (Milan ITX) Radaelli Dario (Legnano ITX) Bertoloni Luciano (Milan ITX) Perrone Francesco (Novara
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출원인 / 주소 |
- Alfa Romeo S.p.A. (Milan ITX 03)
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인용정보 |
피인용 횟수 :
3 인용 특허 :
4 |
초록
▼
This invention relates to a regulation and control system for the fuel feeding unit of an internal combustion engine, said system being based on the use of a microprocessing unit which has properly been programmed. A set of detectors of engine parameters supplies the microprocessing unit with a set
This invention relates to a regulation and control system for the fuel feeding unit of an internal combustion engine, said system being based on the use of a microprocessing unit which has properly been programmed. A set of detectors of engine parameters supplies the microprocessing unit with a set of input data which are processed in the processing unit and converted into a set of output data which are representative of the regulated magnitudes, more exactly of the duration and phase setting of the fuel feed.
대표청구항
▼
A regulation and control system for the unit of fuel feed to an internal combustion engine, said engine being equipped with air intake ducts and actuators for feeding the engine with fuel, said regulation and control system comprising a first detector of a first engine operational parameter, capable
A regulation and control system for the unit of fuel feed to an internal combustion engine, said engine being equipped with air intake ducts and actuators for feeding the engine with fuel, said regulation and control system comprising a first detector of a first engine operational parameter, capable of delivering a discrete number of values taken by such a parameter, each of said value being formed by a preselected number of bits, a second detector of a second engine operational parameter capable of delivering a discrete number of values taken by said parameter each of said values consisting of a preselected number of bits, each couple of values of said first and said second parameters defining an engine operational condition, a third detector of an operational temperature of the engine, capable of delivering a discrete number of values taken by such temperature, each of said values consisting of a preselected number of bits, a first pulse generator operatively connected to the mainshaft and capable of delivering at every engine revolution a pulsed signal composed by a number of pulses equal to the number of fuel-dispensing operations which must take place during each engine revolution, a second pulse generator operatively connected to a shaft rotated at half the RPM of the mainshaft and capable of emitting a properly phased pulse at every engine cycle, a central microprocessor unit (CPU), a reading and writing storage unit (RAM), a reading only storage unit (ROM) containing the calculation programs of the microprocessor unit, the carburation plan of the engine as a function of the two engine operational parameters aforesaid, the carburation correction plan as a function of an engine working temperature, the cells of the storage unit (ROM) relative to the carburation plan containing, each, an information for metering the fuel consisting of a preselected number of bits, the value of which is a function of the quantity of fuel to be fed to the engine at every dispensing step, in the operation condition defined by a couple of values of the two engine operational parameters aforesaid, all the other engine operational parameters being assumed constant, the number of the storage cells being equal to the number of the possible combinations of the values taken by a preselected number of most significant bits of the first engine operational parameter and of the values taken by a preselected number of most significant bits of the second engine operational parameter, the cells of the storage unit aforesaid (ROM) relative to the plan of carburation correction containing, each, an information the value of which is the correction coefficient of the fuel metering as a function of the values taken by said working temperature of the engine, said central microprocessor unit being programmed: for generating an address of the reading only storage (ROM) composed by the combination of the aforementioned preselected number of the first most significant bits of the numerical value taken by said first engine operational parameter and by the aforesaid preselected number of the first most significant bits of the numerical value taken by the second engine operational parameter; for identifying by means of such address that cell of the reading only storage in which a first metering information is contained; for identifying in said reading only storage, in addition to said first metering information three additional metering information pieces, each of which corresponds to the content of the storage cells located in a preselected environmental domain of said address, each of the three cells being identified by algebraically summing certain preselected constants to said address; for obtaining from the aforesaid four metering information pieces a metering information calculated by an operative interpolation process, the operative elementary module of which uses a preselected number of the least significant bits of each of said first and said second engine operational parameters; for identifying in said reading only storage the cell containing the correction coefficient corresponding to the engine working temperature, and for utilizing said correction coefficient to modify said calculated correction information according to a preselected procedure; for calculating from the thermally corrected metering information the utilized metering information expressed in terms of the control magnitude required by the fuel feeding actuators for the engine, the value of said control magnitude being obtained by calculations based on algorythms depending on the operational features of said actuators, and for calculating the instant of command of said fuel feed actuators, utilizing the pulsed signals coming from said first and said second pulse generators, the pulses coming from the first generator being utilized for distinguishing the starting sequential order for the same actuators within a cycle of the engine and for determining the instant of start of each actuator, the pulses coming from the second generator being utilized for defining the beginning of each engine cycle.
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