Device for controlling flow rate of a direct injection fuel pump
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-063/02
F02M-063/00
출원번호
US-0520918
(2003-07-08)
등록번호
US-7270113
(2007-09-18)
우선권정보
FR-02 08726(2002-07-11); FR-02 09797(2002-07-31)
국제출원번호
PCT/FR03/002118
(2003-07-08)
§371/§102 date
20050111
(20050111)
국제공개번호
WO04/007950
(2004-01-22)
발명자
/ 주소
Hervault,Christian
Veret,Dominique
Bauer,Philippe
출원인 / 주소
Siemens Automotive Hydraulics SA
대리인 / 주소
Young & Thompson
인용정보
피인용 횟수 :
4인용 특허 :
5
초록▼
The invention concerns a method for controlling high pressure fuel supply of a set of injectors connected to a common high pressure chamber, called common rail C in a direct injection fuel circuit, through a high pressure pump (P), by acting on the low pressure supply of said pump (P) through an ele
The invention concerns a method for controlling high pressure fuel supply of a set of injectors connected to a common high pressure chamber, called common rail C in a direct injection fuel circuit, through a high pressure pump (P), by acting on the low pressure supply of said pump (P) through an electromagnetic slide valve (E), controlled by the computer managing the operating conditions of the engine which consists in providing, inside the electromagnetic valve (E) one or more internal leakage flows, either from high pressure to low pressure, or from low pressure upstream of the electromagnetic valve (E) to the low pressure downstream thereby solving the specific problems related to the three operating modes of the engine: engine brake, engine shutdown, idle speed.
대표청구항▼
The invention claimed is: 1. Process for controlling the supply of high pressure (HP) gasoline of a set of injectors connected to a common high pressure chamber, called a "common rail" (C) in a direct fuel injection circuit, called DFI, by a high pressure pump (P), comprising steps of: acting on a
The invention claimed is: 1. Process for controlling the supply of high pressure (HP) gasoline of a set of injectors connected to a common high pressure chamber, called a "common rail" (C) in a direct fuel injection circuit, called DFI, by a high pressure pump (P), comprising steps of: acting on a low pressure (LP) supply of said pump (P) by means of a slide electrovalve (E), controlled by a computer allowing an internal leakage from an upstream low pressure, arriving at the electrovalve (E), toward a downstream low pressure, toward the pump (P), and providing in said electrovalve (E) a high pressure (HP) leakage of the gasoline, located in the common rail (C), toward the upstream low pressure. 2. Process according to claim 1, wherein the electrovalve (E) comprises a chamber (64) receiving the upstream low pressure, the chamber being connected to the common rail (C) by means serving as a non-return valve of calibrated passage, so that under certain conditions of operation of the motor, the gasoline located at low pressure in the common rail can be returned to the low pressure upstream inlet. 3. Device for practicing the process according to claim 2, of the type comprising: low pressure gasoline supplied by a low pressure pump (B) acting in a reservoir (R); a high pressure pump (P); a common rail (C) supplied by the high pressure pump; and an electrovalve (E) regulating the supply of the low pressure gasoline to said pump (P), an upstream low pressure inlet connecting the pump (B) to the electrovalve; a downstream low pressure conduit connecting the electrovalve to the high pressure pump (P); said electrovalve (E) comprising: a slide (43) slidably disposed in a jacket (42) so as to cause the upstream low pressure inlet (23) to communicate with the downstream low pressure conduit (22a) supplying the pump (P) by means of a throat (46) provided in the slide (43); a chamber (64) into which the upstream low pressure inlet opens; an orifice (62) connecting the chamber (64) to the common rail by a channel (63); a deformable cage (60, 61) disposed in the chamber so as to be able to controllable rest against the seat so as to controllably open or close the orifice, calibrated openings allowing some flow to the channel (63) even when the deformable cage is positioned to close the orifice; a spring (44) disposed in the deformable cage to apply force to the slide; a motor (45) disposed to move the slide against the spring force; wherein the slide, jacket, and throat are constructed and arranged so that a leakage flow occurs between the upstream low pressure inlet (23) and the downstream low pressure conduit (22a) by means of play between the skirt (42) and the slide (43), wherein, as a function of the demand on the motor, a communication can be established between the reservoir (R) and the common rail (C) by the upstream low pressure inlet (23) and channel (63) through at least one of the orifice (62) and the calibrated openings. 4. Device according to claim 3, further comprising a seat (65) against which rests a movable portion (60) of the deformable cage (60/61); said seat (65) being traversed by at least one of the calibrated openings so as to ensure through said seat (65) a calibrated permanent leakage. 5. Device according to claim 3, in which the slide (43) of the electrovalve (E) is traversed by a passage (48). 6. Device according to claim 4, in which in normal operation of the motor, the low pressure gasoline provided by the low pressure pump (B) passes through the electrovalve by passing through the throat (46), which is opened by the movement of the slide (43) moved by the motor (45) against the spring (44) which applies a portion (60) of the cage against the orifice (62). 7. Device according to claim 3, in which when the motor is stopped, residual high pressure prevailing in the common rail (C) flows toward the reservoir (R) through the calibrated openings, the chamber (64) and the upstream low pressure inlet (23). 8. Device according to claim 3, in which when the motor acts as a motor brake, the injectors are closed, but the pump (P) is still driven and pumping the leakage flow from the upstream low pressure to the downstream low pressure, the high pressure increases in the common rail and presses back the cage (60) by opening the orifice (62) so as to be returned to the reservoir (R). 9. Device according to claim 3, in which when the motor turns idly, excess high pressure gasoline provided by the pump (P) is returned to the reservoir (R) through the channel (63), the orifice (62) and the upstream low pressure inlet (23).
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