Direct-injection system fuel pump with a maximum-pressure valve
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-057/02
F04B-049/03
출원번호
US-0749131
(2010-03-29)
등록번호
US-8430081
(2013-04-30)
우선권정보
IT-BO2009A0198 (2009-03-30)
발명자
/ 주소
Mancini, Luca
De Vita, Daniele
Mattioli, Massimo
출원인 / 주소
Magneti Marelli S.p.A.
대리인 / 주소
Workman Nydegger
인용정보
피인용 횟수 :
2인용 특허 :
17
초록▼
A direct-injection system fuel pump having: at least one pumping chamber; a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber; an intake channel connected to the pumping chamber and regulated by an intake valve; a delivery channel connected to t
A direct-injection system fuel pump having: at least one pumping chamber; a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber; an intake channel connected to the pumping chamber and regulated by an intake valve; a delivery channel connected to the pumping chamber and regulated by a one-way delivery valve that only permits fuel flow from the pumping chamber; and a drain channel regulated by a one-way, maximum-pressure valve, which opens when the fuel pressure in the drain channel exceeds a threshold value, and which has a shutter movable along the drain channel, a valve seat engaged in fluidtight manner by the shutter, and a spring calibrated to push the shutter into a position engaging the valve seat in fluidtight manner.
대표청구항▼
1. A direct-injection system fuel pump comprising: at least one pumping chamber;a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber;an intake channel connected to the pumping chamber and regulated by an intake valve;a delivery channel connected
1. A direct-injection system fuel pump comprising: at least one pumping chamber;a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber;an intake channel connected to the pumping chamber and regulated by an intake valve;a delivery channel connected to the pumping chamber and regulated by a one-way delivery valve that only permits fuel flow from the pumping chamber;a drain channel which connects the delivery channel to the pumping chamber and serves as a fuel bleed in the event the fuel in the delivery channel exceeds a given maximum design pressure;a one-way, maximum-pressure valve, which regulates the drain channel, only permits fuel flow to the pumping chamber, opens when fuel pressure exceeds a threshold value to prevent the fuel in the delivery channel from exceeding the maximum design pressure, and comprises a shutter movable along the drain channel;a valve seat engaged in fluid tight manner by the shutter;a spring calibrated to push the shutter into a position engaging the valve seat in fluid tight manner; anda calibrated plate, which produces a local reduction in the fuel flow section of the drain channel;wherein the calibrated plate is sized so that a hydraulic pressure exerted on the calibrated plate and produced by a load loss astride the calibrated plate roughly equals an increase in the elastic pressure of the spring caused by compression of the spring as the maximum-pressure valve opens; andwherein the hydraulic pressure on the calibrated plate is exerted in the opposite direction to the elastic pressure of the spring, so that, as the opening of the maximum-pressure valve increases, the gradual increase in the elastic pressure of the spring is roughly compensated by a gradual increase in the hydraulic pressure on the calibrated plate. 2. A fuel pump as claimed in claim 1, wherein the difference between the diameter of the fuel flow section of the drain channel and the diameter of the calibrated plate is comprised between 0.5 mm and 0.20 mm and the length of the calibrated plate is comprised between 1 mm and 3 mm. 3. A fuel pump as claimed in claim 1, wherein the total thrust on the shutter remains roughly constant as the opening of the maximum-pressure valve, i.e. the distance between the shutter and the valve seat, increases. 4. A fuel pump as claimed in claim 1, wherein the calibrated plate is interposed between one end of the spring and one side of the shutter. 5. A fuel pump as claimed in claim 4, wherein the calibrated plate rests on both the shutter and the spring. 6. A fuel pump as claimed in claim 5, wherein the calibrated plate has a rod inserted inside the spring. 7. A fuel pump as claimed in claim 1, wherein the intake valve comprises a disk having a number of through holes through which fuel can flow; and a circular deformable plate that rests on one face of the disk to cut off passage through the holes; when fuel flows to the pumping chamber, the deformable plate is deformed and detached from the disk by the fuel to permit fuel flow through the holes; and, when fuel flows from the pumping chamber, the deformable plate is pressed against the disk to seal the holes and so prevent fuel flow through the holes. 8. A fuel pump as claimed in claim 7, further comprising a regulating device connected to the intake valve to keep the intake valve open at the pumping stage of the piston, and so permit fuel flow from the pumping chamber along the intake channel; the regulating device comprises a control rod connected to the deformable plate of the intake valve, and movable between a passive position allowing the deformable plate to engage the disk in fluidtight manner to seal the holes, and an active position preventing the deformable plate from engaging the disk in fluidtight manner, thus opening the holes. 9. A fuel pump as claimed in claim 1, further comprising a compensating chamber located along the intake channel and housing at least one elastically deformable compensating body for attenuating pulsating fuel flow. 10. A fuel pump as claimed in claim 1, further comprising: a catch chamber located underneath the pumping chamber and fitted through with an intermediate portion of the piston, which intermediate portion is designed to cyclically alter the volume of the catch chamber as its moves back and forth; anda connecting channel connecting the catch chamber to the intake channel. 11. A fuel pump as claimed in claim 10, wherein the intermediate portion of the piston inside the catch chamber is the same shape as the top portion of the piston inside the pumping chamber, so that, when the piston moves, the change in volume of the catch chamber produced by movement of the piston is equal to and opposite the change in volume of the pumping chamber produced by movement of the piston. 12. A fuel pump as claimed in claim 10, wherein the connecting channel comes out at the intake valve. 13. A fuel pump as claimed in claim 10, further comprising, underneath the catch chamber, an annular seal is fitted about a bottom portion of the piston to prevent fuel leakage along the lateral wall of the piston. 14. A direct-injection system fuel pump, comprising: at least one pumping chamber;a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber;an intake channel connected to the pumping chamber and regulated by an intake valve, the intake valve comprising: a disk having a number of through holes through which fuel can flow; anda circular deformable plate that rests on one face of the disk to cut off passage through the holes; when fuel flows to the pumping chamber, the deformable plate is deformed and detached from the disk by the fuel to permit fuel flow through the holes; and, when fuel flows from the pumping chamber, the deformable plate is pressed against the disk to seal the holes and so prevent fuel flow through the holes;a delivery channel connected to the pumping chamber and regulated by a one-way delivery valve that only permits fuel flow from the pumping chamber;a drain channel connecting the delivery channel to the pumping chamber and serving as a fuel bleed;a one-way, maximum-pressure valve which opens when fuel pressure exceeds a threshold value, and comprises a shutter movable along the drain channel;a valve seat engaged in fluid tight manner by the shutter;a spring calibrated to push the shutter into a position engaging the valve seat in fluid tight manner; anda calibrated plate, which produces a local reduction in the fuel flow section of the drain channel; andwherein the calibrated plate is sized so that a hydraulic pressure exerted on the calibrated plate and produced by a load loss astride the calibrated plate roughly equals an increase in the elastic pressure of the spring caused by compression of the spring as the maximum-pressure valve opens; andwherein the hydraulic pressure on the calibrated plate is exerted in the opposite direction to the elastic pressure of the spring, so that, as the opening of the maximum-pressure valve increases, the gradual increase in the elastic pressure of the spring is roughly compensated by a gradual increase in the hydraulic pressure on the calibrated plate. 15. A fuel pump as claimed in claim 14, further comprising a regulating device connected to the intake valve to keep the intake valve open at the pumping stage of the piston, and so permit fuel flow from the pumping chamber along the intake channel; the regulating device comprises a control rod connected to the deformable plate of the intake valve, and movable between a passive position allowing the deformable plate to engage the disk in fluid tight manner to seal the holes, and an active position preventing the deformable plate from engaging the disk in fluid tight manner, thus opening the holes. 16. A direct-injection system fuel pump, comprising: at least one pumping chamber;a piston mounted to slide inside the pumping chamber to cyclically alter the volume of the pumping chamber;an intake channel connected to the pumping chamber and regulated by an intake valve;a delivery channel connected to the pumping chamber and regulated by a one-way delivery valve that permits fuel flow from the pumping chamber;a drain channel connecting the delivery channel to the pumping chamber and serving as a fuel bleed;a one-way, maximum-pressure valve which opens when fuel pressure exceeds a threshold value, and comprises a shutter movable along the drain channel;a valve seat engaged in fluid tight manner by the shutter; a spring calibrated to push the shutter into a position engaging the valve seat in fluid tight manner; and a calibrated plate, which produces a local reduction in the fuel flow section of the drain channel;a catch chamber located underneath the pumping chamber and fitted through with an intermediate portion of the piston, which intermediate portion is designed to cyclically alter the volume of the catch chamber as its moves back and forth;a connecting channel connecting the catch chamber to the intake channel; andwherein the calibrated plate is sized so that a hydraulic pressure exerted on the calibrated plate and produced by a load loss astride the calibrated plate roughly equals an increase in the elastic pressure of the spring caused by compression of the spring as the maximum-pressure valve opens; andwherein the hydraulic pressure on the calibrated plate is exerted in the opposite direction to the elastic pressure of the spring, so that, as the opening of the maximum-pressure valve increases, the gradual increase in the elastic pressure of the spring is roughly compensated by a gradual increase in the hydraulic pressure on the calibrated plate. 17. A fuel pump as claimed in claim 16, wherein the intermediate portion of the piston inside the catch chamber is the same shape as the top portion of the piston inside the pumping chamber, so that, when the piston moves, the change in volume of the catch chamber produced by movement of the piston is equal to and opposite the change in volume of the pumping chamber produced by movement of the piston. 18. A fuel pump as claimed in claim 16, wherein the connecting channel comes out at the intake valve. 19. A fuel pump as claimed in claim 16, further comprising, underneath the catch chamber, an annular seal is fitted about a bottom portion of the piston to prevent fuel leakage along the lateral wall of the piston.
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이 특허에 인용된 특허 (17)
Parr Erwin W. (Des Moines IA) Brandt Timothy B. (Des Moines IA), Check valve assembly.
Chisholm Bill (10 Coachway Rd. ; S.W. ; Apt. #171 Calgary ; Alberta CAX T3H 1E5) Frei Roger E. (Box 8 ; Site 12 ; RR #9 Calgary ; Alberta CAX T2J 5G5), One way high pressure flow control fittings.
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