EP2872771B1 - Pompe haute pression - Google Patents
Pompe haute pression Download PDFInfo
- Publication number
- EP2872771B1 EP2872771B1 EP13733272.2A EP13733272A EP2872771B1 EP 2872771 B1 EP2872771 B1 EP 2872771B1 EP 13733272 A EP13733272 A EP 13733272A EP 2872771 B1 EP2872771 B1 EP 2872771B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- housing
- drive shaft
- pressure pump
- pressure
- fuel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Not-in-force
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M63/00—Other fuel-injection apparatus having pertinent characteristics not provided for in groups F02M39/00 - F02M57/00 or F02M67/00; Details, component parts, or accessories of fuel-injection apparatus, not provided for in, or of interest apart from, the apparatus of groups F02M39/00 - F02M61/00 or F02M67/00; Combination of fuel pump with other devices, e.g. lubricating oil pump
- F02M63/0001—Fuel-injection apparatus with specially arranged lubricating system, e.g. by fuel oil
Definitions
- the present invention relates to a high-pressure pump according to the preamble of claim 1 and a high-pressure injection system according to the preamble of claim 10.
- a high-pressure pump continuously ensures the maintenance of the pressure in the high-pressure accumulator of the common-rail injection system.
- the high-pressure pump can be driven, for example, by a camshaft of the internal combustion engine by means of a drive shaft.
- Vor detailpumpen, z. B. a gear or rotary vane pump used, which are connected upstream of the high-pressure pump.
- the prefeed pump delivers the fuel from a fuel tank through a fuel line to the high pressure pump.
- piston pumps are used as high-pressure pumps.
- a drive shaft is mounted. Radially to pistons are arranged in a cylinder.
- a roller with a roller rolling surface On the drive shaft with at least one cam is a roller with a roller rolling surface, which is mounted in a roller shoe.
- the roller shoe is connected to the piston, so that the piston is forced to oscillate translational motion.
- a spring applies to the roller shoe a radially directed to the drive shaft force, so that the roller is in constant contact with the drive shaft.
- the roller is available the roller rolling surface on a shaft rolling surface as the surface of the drive shaft with the at least one cam in contact with the drive shaft.
- the roller is mounted by means of a sliding bearing in the roller shoe.
- the high-pressure pump has a lubricant space formed within a housing and within the lubricant space, the drive shaft with the cam, the roller shoe and the roller is arranged.
- the lubricating space is traversed by fuel as a lubricating fluid for lubrication and cooling of the components, d. H. in particular the roller, the roller shoe and the drive shaft as well as the piston, which is slidably mounted on a piston guide on the housing.
- the funded by the feed pump fuel is thereby part of the high-pressure pump, d. H. an inlet channel, the high-pressure pump supplied and another part of the pumped by the feed pump fuel is passed through the lubricating space for cooling and lubrication of the components within the lubricating space.
- the housing comprises an opening for the passage and sliding bearing of the drive shaft and a blind hole for mounting the drive shaft.
- the drive shaft is slidably mounted on the blind hole and the opening by means of a bearing bush.
- This fuel which due to the clearance between the drive shaft and the bearing bush axially flows through this gap or gap, in particular annular gap, is thereby fed back to the fuel tank after flowing through a fuel return line. Due to a different bearing clearance also occurs a different volume flow of fuel through the two shaft plain bearings.
- the DE 10 2006 045 933 A1 shows a high-pressure pump for high-pressure fuel delivery.
- the high-pressure pump has a drive shaft with cams. Cylindrical rollers are supported by roller shoes and rest on the cams. The roller shoes are mounted by means of a plunger assembly in a bore of a part of the housing. The pump elements are attached to the plunger assembly. A coil spring presses the plunger assembly onto the cams.
- Radial piston pumps are known for fuel high pressure generation in fuel injection systems of internal combustion engines.
- a drive shaft is mounted.
- Pistons are supported on the drive shaft, so that by rotating the drive shaft, the pistons are moved back and forth. Between the piston and the drive shaft tappets are arranged.
- Inventive high-pressure pump for conveying a fluid, in particular fuel, for. B. diesel, comprising a housing, a drive shaft with at least one cam, at least one piston, at least one cylinder for supporting the at least one piston, wherein the at least one piston indirectly, in particular by means of at least one roller or a bucket tappet, on the drive shaft the at least one cam is supported, so that from the at least one piston a translational movement due to a rotational movement of the drive shaft is executable, a lubricating space within which the drive shaft is arranged with the at least one cam, for lubrication and cooling of the drive shaft, at least one shaft sliding bearing for storage the drive shaft with a fluid-conducting connection of a gap, in particular annular gap, between the shaft sliding bearing and the drive shaft to the lubricating space, so that the at least one shaft sliding bearing is lubricated and cooled with the lubricating fluid from the lubricating space, wherein in the Geh use and / or a bearing bush for the drive
- At least one channel is incorporated, thereby additionally in addition to the gap, in particular annular gap, due to a game between the drive shaft and the journal bearings fuel can be derived from the lubricating space in order to perform a sufficient cooling of the components within the lubricating space can.
- no additional or additional cooling throttle is required as a separate component on the high pressure pump on the lubricating space in an advantageous manner.
- the high-pressure pump does not comprise a cooling throttle as a separate component and, in particular, exclusively for this purpose.
- the at least one channel can thus be additionally derived with existing components of the fuel from the lubricating space by the channel is incorporated into the housing and / or the bearing bush and thus no additional components are required.
- the at least one channel is formed as a groove in the housing and / or the bearing bush and / or the housing has an opening or a blind hole for supporting the drive shaft and the at least one channel is formed on the opening or the blind hole.
- the housing includes a body shell and a bearing cap housing.
- the at least one channel is incorporated into the housing and / or the bearing bush by means of embossing and / or milling and / or by means of a laser.
- the at least one groove is formed on a radial outer side of the bearing bush.
- the groove in cross-section V-shaped, rectangular or circular segment-shaped.
- the at least one channel opens into a return bore and / or a return line.
- the derived by the at least one channel lubricating fluid, in particular fuel, is after deriving from the channel through the return line and / or the return bore fed back to a fuel tank.
- the at least one incorporated into the housing channel of the housing and the bearing bush is limited, since the at least one incorporated into the housing channel is incorporated in the region of a bearing surface of the bearing bush on the housing.
- the at least one channel is thus formed between the housing and the bearing bush.
- the at least one channel is delimited by the shaft sliding bearing and the drive shaft, since the at least one channel is incorporated in the shaft sliding bearing, in particular in the housing or the bearing bush.
- the at least one channel is thus formed between the shaft sliding bearing and the drive shaft.
- the shaft sliding bearing is formed for example by the housing or the bearing bush.
- the high-pressure pump expediently comprises at least two or three channels, in particular per shaft sliding bearing for the drive shaft, and / or at least one channel opens into an annular channel and preferably the annular channel opens into a return bore and / or a return line.
- the at least one channel is aligned parallel or at an acute angle to a rotational axis of the drive shaft.
- the acute angle is between 1 ° and 45 °, in particular between 1 ° and 30 °.
- the annular channel is incorporated in an analogous manner as the at least one channel in the housing and / or the bearing bush.
- the gap, in particular the annular gap, between the shaft plain bearing and the drive shaft is incorporated in a fluid-conducting connection through a return restrictor with the return bore and / or the return line and in particular the return restrictor in an analogous manner as the at least one channel is incorporated into the housing and / or the bearing bush ,
- the return restriction throttle serves to ensure that the fuel exiting due to the clearance between the shaft sliding bearing and the drive shaft the amount is limited to obtain at a occurring due to wear and / or manufacturing tolerances very large backlash limitation of the lubricating fluid from the lubricating space due to the gap between the shaft sliding bearing and the drive shaft.
- the return restrictor is incorporated in an analogous manner as the at least one channel in the housing and / or bearing bush for the drive shaft, ie, for example, as a groove on a radial outer side of the bearing bush.
- the groove in the bearing bush so that both the channel and the return restriction throttle can be made and only by a different contact pressure during pressing grooves can be made with a different flow cross-sectional area for the channel and the return restriction throttle.
- Inventive high-pressure injection system for an internal combustion engine comprising a high pressure pump with a lubricating space, a high pressure rail, a prefeed pump for conveying a fuel from a fuel tank to the high pressure pump, wherein the high pressure pump is designed as a high pressure pump described in this patent application.
- the high-pressure injection system in particular the high-pressure pump, comprises a pressure sensor for detecting the pressure in the lubricant space.
- the delivery rate of the prefeed pump is controllable and / or controllable, in particular as a function of the pressure detected by the pressure sensor in the lubricant space and / or as a function of the volume flow of fuel required by the internal combustion engine.
- the delivery rate of the prefeed pump is controlled and / or regulated in such a way that on the one hand there is sufficient fuel for the internal combustion engine, ie a sufficient volume flow of fuel is supplied to the inlet channel of the high-pressure pump and on the other hand enough fuel flows through the lubricant space for lubrication and / or cooling as the second Volume flow and this second volume flow is dependent on the pressure within the lubricating space. For this reason, a sufficient volume flow of fuel can be passed through the lubricant space with the pressure sensor for cooling and / or lubrication of the components within the lubricating space.
- the prefeed pump is a prefeed pump with an electric motor, so that the prefeed pump is driven by the electric motor and, in particular, the delivery rate of the prefeed pump can be controlled and / or regulated.
- the drive shaft with the at least one cam is expediently a drive shaft which is circular in cross-section and which is mounted eccentrically to a central longitudinal axis of the drive shaft so that the axis of rotation is at a distance from the longitudinal axis.
- the longitudinal axis is arranged in cross section in the center of the circular drive shaft.
- the feed pump is a gear or rotary vane pump.
- Fig. 1 is a cross section of a high-pressure pump 1 for conveying fuel shown.
- the high-pressure pump 1 serves to fuel, z.
- the pressure which can be generated by the high-pressure pump 1 is, for example, in a range between 1000 and 3000 bar.
- the high-pressure pump 1 has a drive shaft 2 with two cams 3, which performs a rotational movement about a rotation axis 26.
- the axis of rotation 26 lies in the plane of Fig. 1 and is perpendicular to the plane of Fig. 2 ,
- a piston 5 is mounted in a cylinder 6, which is formed by a housing 8 of the high-pressure pump 1.
- a high pressure working chamber 29 is bounded by the cylinder 6 as a piston guide 7, the housing 8 and the piston 5.
- Into the high-pressure working space 29 opens an inlet channel 22 with an inlet valve 19 and an outlet channel 24 with an outlet valve 20.
- the fuel flows into the high-pressure working chamber 29 and through the outlet channel 24 with an outlet opening 23, the fuel flows under High pressure from the high pressure working chamber 29 again.
- As a check valve is designed to the effect that only fuel can flow into the working space 29 and the exhaust valve 20, z.
- B. a check valve is designed to the effect that only fuel can flow out of the working space 29.
- the volume of the high-pressure working chamber 29 is changed due to an oscillating stroke movement of the piston 5.
- the piston 5 is indirectly supported on the drive shaft 2 from. At the end of the piston 5 or pump piston 5, a roller shoe 9 is attached to a roller 10.
- the roller 10 can perform a rotational movement, the axis of rotation 25 in the plane according to Fig. 1 lies and perpendicular to the plane of Fig. 2 stands.
- the drive shaft 2 with the at least one cam 3 has a shaft rolling surface 4 and the roller 10 has a roller rolling surface 11.
- the roller-running surface 11 of the roller 10 rolls on the shaft rolling surface 4 as a contact surface 12 of the drive shaft 2 with the two cams 3 from.
- the roller shoe 9 is mounted in a roller shoe bearing formed by the housing 8 as a sliding bearing.
- Rolling surface 4 of the drive shaft 2 is.
- the roller shoe 9 and the piston 5 lead with it together an oscillating stroke movement.
- the roller 10 is mounted with a sliding bearing 13 in the roller shoe 9.
- FIG. 3 is a highly schematic representation of a high-pressure injection system 36 for the motor vehicle shown with a high-pressure rail 30 or a fuel rail 31.
- the fuel by means of valves (not shown) is injected into the combustion chamber of the engine 39 .
- An electric prefeed pump 35 delivers fuel from a fuel tank 32 through a first fuel line 33a to the intake passage 22 and through a second fuel passage 33b to a lubricating space 40 (FIG. Fig. 4
- the high-pressure pump 1 is driven by the drive shaft 2 and the drive shaft 2 is connected to a shaft, for.
- the engine 39 is connected.
- the delivery rate of the electric prefeed pump 35 can be controlled and / or regulated, so that thereby the amount of fuel delivered to the inlet channel 22 per unit time can be controlled and / or regulated.
- the high-pressure rail 30 serves to inject the fuel into the combustion chamber of the internal combustion engine 39.
- the fuel not required by the high-pressure pump 1 is returned to the fuel tank 32 through an optional fuel return line 34.
- Fig. 4 shows a part of the high pressure injection system 36.
- the lubricating space 40 is formed.
- the drive shaft 2 the roller 10
- the roller shoe 9 (not in Fig. 4 )
- partially the piston 5 is arranged.
- these components 2, 5, 9 and 10 are lubricated by the fuel.
- the fuel introduced into the lubricant space 40 through the second fuel line 33b is returned to the fuel tank 32 through the fuel return line 34 from the lubricant space 40 ( Figure 4 ).
- Fig. 4 is that in Fig. 3 shown high-pressure injection system 36 shown in more detail without the high-pressure rail 30 and without the internal combustion engine 39.
- the sucked by the prefeed pump 35 from the fuel tank 32 fuel is supplied from the prefeed pump 35 with a prefeed, z. B. 4 bar, supplied through the first fuel line 33 a the inlet channel 22 of the high-pressure pump 1. Furthermore, the of the Pre-feed pump 35 conveyed fuel during operation of the internal combustion engine 39 through the second fuel line 33b the lubricant chamber 40 is supplied to the lubrication, z. B. the drive shaft 2, the roller 10 and the piston 5. After flowing through the fuel through the lubricating space 40, the fuel is supplied through the fuel return line 34 to the fuel tank 32 again. As a result, these components 2, 5, 9 and 10 can be lubricated as well as cooled. The prefeed pump 35 thereby promotes not only the flow rate for the high-pressure pump 1 to fuel but also an additional amount of fuel for lubrication of the high-pressure pump 1, ie the fuel flowing through the lubricating space 40.
- the electric prefeed pump 35 has an electric motor 17 and a rotary piston pump 16, namely a gear pump 14, ie an internal gear pump 15 or gerotor pump 15 (FIG. Fig. 4 ).
- the high-pressure pump 1 delivers fuel under high pressure, for example, a pressure of 1000, 3000 or 4000 bar, through a high pressure fuel line to a high pressure rail 31. From the high pressure rail 31 of the fuel under high pressure from an injector combustion chamber (not shown) of Internal combustion engine 39 supplied.
- the electric motor 17 of the electric prefeed pump 35 is operated with three-phase current or alternating current and is controllable in the power and / or regulated.
- the three-phase current or alternating current for the electric motor 17 is provided by a power electronics, not shown, from a DC voltage network of a vehicle electrical system of a motor vehicle (not shown).
- the electric prefeed pump 35 is thus an electronically commutated prefeed pump 35.
- the housing 8 of the high-pressure pump 1 is subdivided into a hull housing 46 and into a bearing cover housing 47 as separate components ( Fig. 4 and 5 ).
- the hull housing 46 is formed with a blind hole 45 and the bearing cover housing 47 or flange housing 47 has an opening 44 (FIG. Fig. 5 to 7 ).
- the opening 44 serves to form a shaft sliding bearing 18 for the drive shaft 2 and also for the implementation of the drive shaft 2 outside the lubricating space 40, so that thereby the drive shaft 2 can be mechanically connected for example with a camshaft, not shown, of the engine 39.
- the blind hole 45 only serves to provide a shaft sliding bearing 18 for the drive shaft 2 available.
- a bearing bush 41 both in the blind hole 45 and in the opening 44, a bearing bush 41 by means of a press fit on a support surface 49 on the housing 8, ie the hull housing 46 and the bearing cap housing 47, on or pressed.
- the bearing bush 41 thus forms on its radial inside the shaft sliding bearing 18 on which the drive shaft 2 rests.
- a shaft seal not shown, as well as other sealing means, for.
- a return restriction throttle 51 As sealing rings, so that thereby from the annular gap 38 between the drive shaft 2 and the bearing bush 41 at the opening 44 effluent fuel can be collected and collected by a return restriction throttle 51 a return bore 48 is supplied.
- the return restriction throttle 51 has a predetermined flow cross-sectional area, so that with an increase in the clearance and thus an enlargement of the gap 37, for example due to wear, the discharge of fuel through the gap 37 is limited.
- the drainage hole 52 is formed as a return restriction throttle 51.
- the bearing bush 41 is on the radial outside by means of stamping, pressing or milling a groove 43 ( Fig. 6 ) incorporated.
- the bearing bush 41 is fixed by means of a press fit to the opening 44 of the bearing cap housing 47, ie on the support surface 49.
- the rotational position of the bearing bush 41 with respect to the bearing cap housing 47 is fixed, so that on the one hand due to the groove 43, a channel 42 between the bearing cap housing 47 and the bearing bush 41 is formed and this channel 42 is also hydraulically connected to the return bore 48, since the channel 42 due to the orientation of the bearing bush 41 opens relative to the bearing cap housing 47 in the return bore 48.
- the return restrictor 51 is incorporated in an analogous manner as the channel 42 in the radial outer side of the bearing bush 41 by means of pressing or embossing. The fuel flowing out through the channel 42 is thus also supplied to the fuel return line 34 through the return bore 48.
- the bearing book 41 also has a groove 43 on the blind hole 45 (FIG. Fig. 7 ) and thus formed between the bushing 41 and the body shell 46 also the channel 42.
- This channel 42 can be additionally derived fuel, which is also supplied through the drain hole 52 of the fuel return line 34 and thus the fuel tank 32.
- the flow cross-sectional area of the drainage bore 52 may optionally also be designed such that the drainage bore 52 also serves as a return restriction throttle 51.
- the fuel delivered by the prefeed pump 35 is supplied on the one hand through the first fuel line 33a to the inlet channel 22 and through the second fuel line 33b the lubricating chamber 40.
- the lubricating chamber 40 is completely filled with fuel and the fuel is used to lubricate the components, eg. B. the drive shaft 2 and the roller shoe 9, and also for cooling these components.
- a sufficient volume flow of fuel must be passed through the lubricating space 40.
- the flowing through the gap 37 fuel between the drive shaft 2 and the bearing bush 41 due to a clearance between the bearing bush 41 and the drive shaft. 2 flowing fuel is not sufficient in its volume flow for cooling the lubricating space 40.
- this channel 42 is a cooling throttle without additional components to the high-pressure pump 1, because the channel 42 is integrated into existing components, namely by the groove 43 is incorporated into the bearing bush 41 on the outside.
- FIG. 8 views of bushing 41 in various embodiments are shown for channels 42.
- Fig. 8 has the bearing bush 41 only one channel 42 and a groove 43 which is aligned parallel to a rotational axis 26 of the drive shaft 2.
- the bearing bush 41 has two grooves 43 and in the in Fig. 10 illustrated embodiment, the grooves 43 are incorporated at an acute angle to the axis of rotation 26.
- This in Fig. 11 illustrated embodiment differs from the in Fig. 10 illustrated embodiment in that the two grooves 43 are interconnected by an additional groove and in Fig. 12 the two grooves 43 are also connected to each other by an additional groove, but aligned parallel to the axis of rotation 26.
- the in Fig. 13 illustrated embodiment open two grooves 43 in the lubricating space 40 and these two grooves 43 then open into only one groove 43rd
- FIGS. 14 and 15 are two embodiments for the formation of the bearing bush 41 in addition to at least one groove 43 also shown with an annular channel 50.
- This in Fig. 14 illustrated embodiment corresponds to in Fig. 8 illustrated embodiment and only differs in that an annular channel 50 is present.
- the in Fig. 10 to 13 illustrated embodiments may be provided with a ring channel 50.
- the bearing bush 41 in the opening 44 is not in its rotational angle position with respect to the return bore to the effect that the channel 42 opens directly into the return bore 48.
- the bearing bushing 41 does not have to be aligned in its rotational angular position on the bearing cap housing 48, but only the axial alignment of the bearing bush 41 must be made so that the annular channel 50 opens into the return bore 48.
- the cross-sectional shape of the incorporated into the bearing bush 41 groove 43 is arbitrary and may for example be V-shaped ( Fig. 16 ), rectangular ( Fig. 17 ) or circular segment ( Fig. 18 ) be formed.
- the groove 43 is not on the radial outer side of the bearing bush 41, but on the radial inner side of the bearing bush 41, d. H. formed on the shaft sliding bearing 48.
- the channel 42 is thereby bounded by the bearing bush 41 or the shaft sliding bearing 18 and the drive shaft 2. As a result, additional fuel can be discharged from the lubricant space 40.
- the return flow restrictor 51 and the return bore 48 are on the blind hole 45 as in the embodiment in Fig. 6 formed at the opening 44 and the housing 8, that is, the body housing 46, has no drain hole 52 on the blind hole 45 on.
- a pressure sensor 53 is present in the lubricating space 40.
- the pressure sensor 53 detects the pressure of the fuel within the lubricating space 40, which is for example in the range of 4 to 5 bar.
- the delivery rate of the prefeed pump 35 is controllable and / or controllable and is controlled and / or regulated to the effect that a constant pressure of 4 to 5 bar is present in the lubricant space 40.
- the pressure in the lubricating chamber 40 can also be increased in order to discharge an increased amount of fuel from the lubricating space 40 by increasing the pressure to increase the cooling capacity with the volume flow of fuel passed through the lubricating space 40 and vice versa.
- the high-pressure pump 1 does not have a separate cooling throttle for the additional discharge of fuel from the lubricating space 40 on, so that thereby the manufacturing cost of the high-pressure pump 1 can be lowered.
- a groove 43 is incorporated, thereby forming a channel 42 as a cooling throttle for the additional discharge of fuel from the lubricating space 40.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Fuel-Injection Apparatus (AREA)
- Reciprocating Pumps (AREA)
- Details Of Reciprocating Pumps (AREA)
Claims (11)
- Pompe haute pression (1) pour refouler un fluide, en particulier du carburant, par exemple du carburant diesel, comprenant :- un boîtier (8),- un arbre d'entraînement (2) avec au moins une came (3),- au moins un piston (5),- au moins un cylindre (6) pour supporter l'au moins un piston (5),- l'au moins un piston (5) s'appuyant de manière indirecte sur l'arbre d'entraînement (2) avec l'au moins une came (3), de telle sorte qu'un mouvement de translation puisse être effectué par l'au moins un piston (5) sur la base d'un mouvement de rotation de l'arbre d'entraînement (2),- un espace de lubrification (40) à l'intérieur duquel est disposé l'arbre d'entraînement (2) avec l'au moins une came (3), pour la lubrification et le refroidissement de l'arbre d'entraînement (2),- au moins un palier lisse d'arbre (18) pour supporter l'arbre d'entraînement (2) avec une connexion fluidique d'une fente (37), en particulier d'une fente annulaire (38) entre le palier lisse d'arbre (18) et l'arbre d'entraînement (2), par rapport à l'espace de lubrification (40), de telle sorte que l'au moins un palier lisse d'arbre (18) est lubrifié et refroidi avec le lubrifiant liquide provenant de l'espace de lubrification (40),- au moins un canal (42) étant réalisé dans le boîtier (8) et/ou dans une douille-palier (41) pour l'arbre d'entraînement (2), pour l'évacuation supplémentaire du lubrifiant liquide hors de l'espace de lubrification (40),caractérisée en ce que
l'au moins un canal (42) est réalisé sous forme de rainure (43) dans le boîtier (8) et/ou la douille-palier (41) et
le boîtier (8) présente une ouverture (44) ou un trou borgne (45) pour le support de l'arbre d'entraînement (2) et l'au moins un canal (42) est réalisé au niveau de l'ouverture (44) ou du trou borgne (45), la fente (37), en particulier la fente annulaire (38), étant en liaison fluidique entre le palier lisse d'arbre (18) et l'arbre d'entraînement (2) par un étranglement limitant l'écoulement de retour (51) avec l'alésage de retour (48) et/ou la conduite de retour (34) et en particulier,
l'étranglement limitant l'écoulement de retour (51) est réalisé dans le boîtier (8) et/ou dans la douille-palier (41). - Pompe haute pression selon la revendication 1,
caractérisée en ce que
le boîtier (8) comprend un boîtier de corps (46) et un boîtier de couvercle de palier (47). - Pompe haute pression selon la revendication 2,
caractérisée en ce que
la rainure (43) est réalisée avec une section transversale en forme de V, sous forme rectangulaire ou en forme de segment de cercle. - Pompe haute pression selon l'une quelconque ou plusieurs des revendications précédentes,
caractérisée en ce que
l'au moins un canal (42) débouche dans un alésage de retour (48) et/ou dans une conduite de retour (34). - Pompe haute pression selon l'une quelconque ou plusieurs des revendications précédentes,
caractérisée en ce que
l'au moins un canal (42) réalisé dans le boîtier (8) est limité par le boîtier (8) et la douille-palier (41), car l'au moins un canal (42) réalisé dans le boîtier (8) est réalisé dans la région d'une surface d'appui (49) de la douille-palier (41) au niveau du boîtier (8). - Pompe haute pression selon l'une quelconque ou plusieurs des revendications précédentes,
caractérisée en ce que
l'au moins un canal (42) est limité par le palier lisse d'arbre (18) et l'arbre d'entraînement (2), car l'au moins un canal (42) est réalisé dans le palier lisse d'arbre (18), en particulier dans le boîtier (8) ou dans la douille-palier (41). - Pompe haute pression selon l'une quelconque ou plusieurs des revendications précédentes,
caractérisée en ce que
la pompe haute pression (1) comprend au moins deux ou trois canaux (42), en particulier pour chaque palier lisse d'arbre (18) pour l'arbre d'entraînement (2),
et/ou
au moins un canal (42) débouche dans un canal annulaire (50)
et de préférence
le canal annulaire (50) débouche dans un alésage de retour (48) et/ou une conduite de retour (34). - Pompe haute pression selon la revendication 7,
caractérisée en ce que
le canal annulaire (50) est réalisé de manière analogue à l'au moins un canal (42) dans le boîtier (8) et/ou dans la douille-palier (41). - Système d'injection haute pression (36) pour un moteur à combustion interne (39),
comprenant- une pompe haute pression (1) comprenant un espace de lubrification (40),- un rail haute pression (30),- une pompe de refoulement préliminaire (35) pour refouler du carburant d'un réservoir de carburant (32) à la pompe haute pression (1),caractérisé en ce que
la pompe haute pression (1) est réalisée sous forme de pompe haute pression (1) selon l'une quelconque ou plusieurs des revendications précédentes. - Système d'injection haute pression selon la revendication 9,
caractérisé en ce que
le système d'injection haute pression (36), en particulier la pompe haute pression (1), comprend un capteur de pression (53) pour détecter la pression dans l'espace de lubrification (40). - Système d'injection haute pression selon la revendication 9 ou 10,
caractérisé en ce que
la puissance de refoulement de la pompe de refoulement préliminaire (35) peut être commandée et/ou régulée, en particulier en fonction de la pression détectée par le capteur de pression (53) dans l'espace de lubrification (40) et/ou en fonction du débit volumique de carburant nécessaire pour le moteur à combustion interne (39).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE201210212153 DE102012212153A1 (de) | 2012-07-11 | 2012-07-11 | Hochdruckpumpe |
PCT/EP2013/063468 WO2014009164A1 (fr) | 2012-07-11 | 2013-06-27 | Pompe haute pression |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2872771A1 EP2872771A1 (fr) | 2015-05-20 |
EP2872771B1 true EP2872771B1 (fr) | 2017-01-04 |
Family
ID=48745927
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13733272.2A Not-in-force EP2872771B1 (fr) | 2012-07-11 | 2013-06-27 | Pompe haute pression |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP2872771B1 (fr) |
CN (1) | CN104487699B (fr) |
DE (1) | DE102012212153A1 (fr) |
IN (1) | IN2014DN10747A (fr) |
WO (1) | WO2014009164A1 (fr) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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KR102097882B1 (ko) * | 2016-02-02 | 2020-04-06 | 바르실라 핀랜드 오이 | 베어링 배열체 |
DE102018120777A1 (de) * | 2018-08-24 | 2020-02-27 | Volkswagen Aktiengesellschaft | Hochdruckpumpe umfassend eine Druckumlaufschmierung |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH1172014A (ja) * | 1997-06-24 | 1999-03-16 | Unisia Jecs Corp | 燃料加圧用ポンプ |
DE19924064B4 (de) * | 1999-05-26 | 2007-07-05 | Siemens Ag | Verdrängerpumpe |
JP3852753B2 (ja) * | 2001-12-04 | 2006-12-06 | 株式会社デンソー | 燃料噴射ポンプ |
JP3915718B2 (ja) * | 2003-03-11 | 2007-05-16 | 株式会社デンソー | 燃料供給ポンプ |
DE10356262A1 (de) | 2003-12-03 | 2005-06-30 | Robert Bosch Gmbh | Radialkolbenpumpe, insbesondere für Kraftstoffeinspritzsysteme |
DE102006045933A1 (de) | 2006-09-28 | 2008-04-03 | Robert Bosch Gmbh | Stößelbaugruppe für eine Hochdruckpumpe und Hochdruckpumpe mit wenigstens einer Stößelbaugruppe |
JP4701227B2 (ja) * | 2007-10-29 | 2011-06-15 | 日立オートモティブシステムズ株式会社 | プランジャ式高圧燃料ポンプ |
DE102008017222A1 (de) * | 2008-04-04 | 2009-10-08 | Continental Automotive Gmbh | Pumpenanordnung zur Förderung eines Fluids |
-
2012
- 2012-07-11 DE DE201210212153 patent/DE102012212153A1/de not_active Withdrawn
-
2013
- 2013-06-27 EP EP13733272.2A patent/EP2872771B1/fr not_active Not-in-force
- 2013-06-27 CN CN201380036918.5A patent/CN104487699B/zh active Active
- 2013-06-27 WO PCT/EP2013/063468 patent/WO2014009164A1/fr active Application Filing
- 2013-06-27 IN IN10747DEN2014 patent/IN2014DN10747A/en unknown
Non-Patent Citations (1)
Title |
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None * |
Also Published As
Publication number | Publication date |
---|---|
EP2872771A1 (fr) | 2015-05-20 |
CN104487699B (zh) | 2018-03-13 |
WO2014009164A1 (fr) | 2014-01-16 |
IN2014DN10747A (fr) | 2015-09-04 |
DE102012212153A1 (de) | 2014-01-16 |
CN104487699A (zh) | 2015-04-01 |
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