IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0630201
(2003-07-30)
|
우선권정보 |
IT-0000498 (2002-07-30) |
발명자
/ 주소 |
- Ranaldo, Sandra
- Bastia, Alberto
- Pasquali, Paolo
- Di Gioia, Rita
|
출원인 / 주소 |
- Magneti Marelli Powertrain S.p.A.
|
대리인 / 주소 |
Ostrolenk, Faber, Gerb &
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
8 |
초록
▼
Fuel injection system of the common rail type provided with a high-pressure pump, which supplies fuel to a common channel that in turn supplies a series of injectors, and with a control unit, which is capable of keeping the pressure of the fuel within the common channel, moment by moment, equal to a
Fuel injection system of the common rail type provided with a high-pressure pump, which supplies fuel to a common channel that in turn supplies a series of injectors, and with a control unit, which is capable of keeping the pressure of the fuel within the common channel, moment by moment, equal to a desired value that generally varies over time; the control unit is coupled to a device for regulating the flow rate of the high-pressure pump in order to control the flow rate of the high-pressure pump so as to supply the common channel, moment by moment, with the amount of fuel required in order to have the desired value for pressure inside said common channel.
대표청구항
▼
1. Fuel injection system of the common rail type comprising:a plurality of injectors, a common channel that supplies the fuel under pressure to the injectors, a high-pressure pump, which supplies fuel to the common channel and is provided with a device for regulating the flow rate and a control unit
1. Fuel injection system of the common rail type comprising:a plurality of injectors, a common channel that supplies the fuel under pressure to the injectors, a high-pressure pump, which supplies fuel to the common channel and is provided with a device for regulating the flow rate and a control unit capable of keeping the pressure of the fuel within the common channel, moment by moment, equal to a desired value that generally varies over time; the control unit being coupled to the regulation device in order to control the flow rate of the high-pressure pump so as to supply the common channel, moment by moment, with the amount of fuel required in order to have the desired value for pressure inside said common channel; the control unit comprising a sensor that is capable of recording the value for the pressure of the fuel inside the common channel, and is capable of regulating the flow rate of the high-pressure pump by means of a feedback control using as a feedback variable the value for the pressure of the fuel inside the common channel; the high-pressure pump comprising at least one cylinder provided with a piston having an alternating motion inside the cylinder, an intake channel, a discharge channel connected to the common channel, an intake valve coupled to the intake channel and capable of allowing a flow of fuel to pass into the cylinder, and a single-direction delivery valve coupled to the discharge channel and capable of allowing a flow of fuel only out of the cylinder; the regulation device being coupled to the intake valve in order to keep the intake valve open when the piston is in a compression phase and therefore to allow fuel to flow back out of the cylinder through the intake channel; the intake valve comprising a valve body moveable along the intake channel and a valve seat that is capable of being acted upon in a fluid-tight manner by the valve body and is arranged at the end of the intake channel opposite the end communicating with the cylinder; the regulation device comprising a control member that is coupled to the valve body and is moveable between a passive position, in which it allows the valve body to act in a fluid-tight manner upon the valve seat, and an active position, in which it does not allow the valve body to act in a fluid-tight manner upon the valve seat; the regulation device comprising an electromagnetic actuator that is coupled the control member in order to move said control member between the passive position and the active position; the electromagnetic actuator comprising a spring capable of keeping the control member in the active position, and an electromagnet capable of moving the control member into the passive position; wherein the force exerted by the spring of the actuator is significantly less than the force exerted by the pressure on the valve body of the intake valve; and wherein the control unit comprises control means for driving the electromagnetic actuator by means of a pulse of current of short and constant duration. 2. System according to claim 1, in which the intake valve is open and the delivery valve is closed when the cylinder is in an intake phase in order to supply the cylinder with a given, constant amount of fuel, while the intake valve is closed and the delivery valve is open when the cylinder is in a delivery phase in order to supply fuel under pressure to the common channel; the control unit being capable of keeping the intake valve open during an initial part of the delivery phase of the cylinder in order to discharge through the intake conduit the amount of fuel present in the cylinder that exceeds the amount of fuel required in order to have the desired value for pressure inside said common channel.3. System according to claim 1, in which the intake valve comprises a respective spring capable of pushing the valve body towards a fluid-tight engaged position of the valve seat.4. System according to claim 1, in which the control member is moveable between the active position and the passive position along a linear distance parallel to the direction of flow of the fuel through the intake channel.5. System according to claim 1, in which the delivery valve comprises a valve body moveable along the discharge channel and a valve seat that is capable of being acted upon in a fluid-tight manner by the valve body and is arranged at the end of the discharge channel communicating with the cylinder.6. System according to claim 5, in which the delivery valve comprises a respective spring capable of pushing the valve body towards a fluid-tight engaged position of the valve seat.7. System according to claim 1, comprising a low-pressure pump capable of supplying the fuel from a tank to the high-pressure pump by means of a tube, along which an overpressure valve connected to the tank is inserted.
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