DE102016225952A1 - High-pressure pump, in particular for a fuel injection system, with integrated suction valve - Google Patents

Abstract

The invention relates to a high pressure pump for a fuel injection system, comprising a housing part (1), wherein in the housing part (1) for filling a high pressure element space (3) with fuel, a suction valve (4) is integrated, wherein the suction valve (4) has a support element (22 ) and a magnet assembly (26), wherein a dial (17) between the support member (22) and a shoulder (18) of the housing part (1) is arranged and in the housing part (1) serving as an inlet for the suction valve (4) Low pressure chamber (8) is formed, in which a sieve element (9) is accommodated, wherein the sieve element (9) has two partial regions (28, 29), wherein in a first subregion (28) a sieve cloth (15) is arranged and a second According to the invention, the sieve element (9) and / or the shim (17) has means (36, 37, 38, 39) for locking the sieve element (9) to the shim (17). on.

Description

The invention relates to a high-pressure pump, in particular for a fuel injection system, in particular a common-rail injection system, having the features of the preamble of claim 1.

State of the art

A high-pressure pump, in particular for a fuel injection system, serves to convey fuel to high pressure. For this purpose, a high-pressure pump has at least one pump element with a high-pressure element space, in which the fuel is compressed and then fed via a high-pressure outlet to a high-pressure reservoir, the so-called rail. The filling of the high pressure element space is usually via a suction valve, which may be designed as a mechanical suction valve or as an electromagnetically actuated suction valve. If the latter is the case, a metering unit upstream of the suction valve can be dispensed with, since the quantity metering can take place via the suction valve itself.

The suction valve can also be attached to the high-pressure pump or integrated into it.

A high pressure pump with integrated suction valve is an example of the published patent application DE 10 2012 210 107 A1 out. The suction valve described herein comprises a cooperating with a valve seat valve member which is received in a liftable manner in a bore of a housing part of the high-pressure pump and guided over a guide sleeve. The valve seat can be formed by the housing part of the high-pressure pump, so that a separate valve plate, in which usually the valve seat is formed, is dispensable. With the omission of the valve plate and the inlet holes fall away, over which - with the suction valve open - the fuel flows in the direction of the valve seat. The inlet therefore takes place in the suction valve described in the disclosure via recesses in the guide sleeve.

In the incoming fuel particles are often included, which can lead to malfunction of the suction valve and other downstream valves, such as a likewise arranged in the housing part of the high pressure pump high pressure valve and / or provided on a high-pressure accumulator pressure control valve. Therefore, it is necessary to remove such particles before they get into the suction valve. Suction valves are known from the prior art, which comprise an annular sieve element surrounding the valve plate. Such a suction valve is an example of the published patent application DE 10 2008 042 617 A1 out. This assumes, however, that a valve plate is present.

If the intake valve is preceded by a metering unit, it can be equipped with a sieve element, so that a further sieve element on the intake valve can be dispensed with. However, if such a metering unit is not provided, since it is, for example, an electromagnetically actuated suction valve, the harmful particles must be removed in another way. Failure to take any action in this regard will not only cause the suction valve and other valves to malfunction, but will result in failure of the pump.

Furthermore, sieve elements, as in 1 described, known to be loosely inserted their mounting position and depending on the tolerance situation of the affected individual components leads to a more or less strong axial jamming of Siebelements. The axial clamping force is relatively low, since this only takes place on the outer radius of the sieve, wherein the sieve there has a low material thickness and a relatively large lever acts, which has a negative effect on the axial bias.

The present invention is therefore based on the object of specifying a high-pressure pump - in particular for a fuel injection system - with an integrated suction valve, in which the risk of pump failure due to particles contained in the fuel is significantly minimized.

To solve the problem, the high pressure pump is specified with the features of claim 1. Advantageous developments of the invention can be found in the dependent claims.

Disclosure of the invention

The preferably for a fuel injection system, in particular a common rail injection system, proposed high-pressure pump comprises a housing part, wherein in the housing part for filling a Hochdruckelementraums with fuel, a suction valve is integrated, wherein the suction valve comprises a support member and a magnetic assembly, wherein a shim between the Carrier element and a shoulder of the housing part is arranged and in the housing part serving as an inlet for the suction valve low pressure space is formed, in which a sieve element is received, wherein the sieve element has two subregions, wherein in a first portion of a screen mesh is arranged and a second portion the shim is applied.

According to the invention, the sieve element and / or the adjusting disk has means for locking the sieve element to the adjusting disk.

The arrangement of the sieve element in the low pressure space, i. in the inlet region of the suction valve, ensures in an advantageous manner that any particles contained in the fuel do not enter the region of the valve seat and lead to malfunction of the suction valve. This also reduces the risk of failure of the high-pressure pump. Since the suction valve is protected by the sieve element accommodated in the low-pressure chamber, it does not matter whether the suction valve is preceded by a metering unit equipped with a sieve. The suction valve may therefore be both a mechanical suction valve and an electromagnetically actuated suction valve.

The sieve element advantageously has two partial regions, the two partial regions primarily fulfilling two different functions. The first portion serves to receive the mesh and the second portion is in contact with the shim. By this separation of functions is achieved that stresses on the screen fabric can be reduced, thereby avoiding undesirable deformation of the fabric, or can be reduced, whereby the filter performance of the screen element would decrease.

By the means for locking is achieved in an advantageous manner that the screen element is fixed against rotation relative to the shim. The risk of relative movements is thus minimized. The shim is preferably axially biased against the shoulder of the housing part, for example, by a screwed with the housing part union nut, which serves to attach the suction valve on the housing part.

The means for locking counteract micro-movements of the screen element relative to the housing part, whereby the screen element is fixed in position over the adjusting disk and the housing part at least in the axial direction and against rotation. In this way, the wear of the screen element is minimized in the contact area with the housing part. This means that over the duration no wear-related play between the sieve element and the housing part is to be feared over which particles contained in the fuel could enter the suction valve. Consequently, the risk of particle-induced pump failure is minimized via the locking means.

The means for locking the sieve element on the shim are advantageously arranged on the sieve element and / or on the shim, whereby a rotation of the sieve is prevented.

An arrangement of the means alone on the sieve has the advantage that only the sieve element must be changed constructively and the funds in a simple manner by a manufacturing process, such as injection molding, are produced. The shim does not need to be changed.

An arrangement of the means alone on the shim has the advantage that only the shim must be changed constructively and the funds in a simple manner by a manufacturing process, such as punching, are produced. The sieve element does not need to be changed.

A preferred arrangement of the means on the sieve element and the shim has the advantage that the sieve element and the shim are brought by the means for locking together in operative connection, so that rotation of the components is prevented from each other.

In one embodiment of the invention, a gap is formed between the shim and the first portion of the sieve. The gap advantageously optimizes the effect of reducing the tension on the screen cloth.

In a development, the sieve element is designed in the form of a ring about a central axis and the second subarea is arranged in one piece on the first subregion of the sieve element. The annular design of the sieve element advantageously enables uniform contact in the axial direction of the sieve element between the shim and the housing part. Both portions are advantageously integrally formed with each other, whereby the screen element in a simple manner of plastic or an elastomer, for example in an injection molding, can be made. The screen mesh can be inserted into the injection mold. In this way, the screen element is simple and inexpensive to produce.

In a further development, the screen element at its end facing the suction valve to the second portion of the screen element, which is formed by a radially outwardly extending collar.

This is shaped such that it is elastically deformed under the action of an axial biasing force, so that this manufacturing and / or assembly tolerances can be compensated. Preferably, the collar is made in one step with the portafilter made of plastic or an elastomer. The portafilter may have an angular cross-sectional shape for this purpose.

In a development, the low-pressure space is formed in cross-section at least partially V-shaped and arranged the strainer substantially coaxially to the low-pressure space, so that it divides the low-pressure space into two annular spaces. The V-shaped design has the advantage that the low-pressure space widens towards the suction valve. A low-pressure space radially inwardly delimiting central dome of the housing part is formed in this case at least partially frusto-conical. For the purposes of the present application, a dome is understood to be a material shaping projecting from the surrounding area, which may, for example, have a conical shape. For this purpose, the screen element is preferably received in the low-pressure space such that it at least partially surrounds the central dome of the housing part or at least partially engages the central dome of the housing part in the screen element. Through the dome, the screen element is prevented in particular from movements in the radial direction.

The low-pressure space and the central dome can be easily manufactured in this way in a material-removing process, for example by turning. Preferably, the central dome on the base has a cylindrical portion on which the sieve element bears radially. However, the screen element may also be biased against the cylindrical portion of the dome.

Furthermore, the sieve element is arranged substantially centrally in the low-pressure space, so that it subdivides the low-pressure space into two annular spaces. Due to the central arrangement, the height of the Siebelements can be maximized, since it is located where the low pressure chamber has its greatest depth. According to the height can be maximized in this way, the area of the mesh fabric. The larger the area of the mesh, the lower the risk that it will become clogged over time.

In a further development of the invention, the means for locking the screen element between the shim and the first portion and / or the second portion of the screen element are arranged.

An arrangement of the means between the shim and the first portion has the advantage that the stability of the portafilter, which is supported on the housing part, is used to optimize the locking of the screen element relative to the shim.

An arrangement of the means between the shim and the second portion has the advantage that the second portion rests against the shim and thus prevails at this installation only a small clearance between the two components, whereby an optimization of the locking of the sieve against the shim is achieved ,

A preferred arrangement of the means between the dial and the first portion and the second portion agreed in each case both advantages.

In one embodiment of the invention, the means for locking the screen element are arranged in an advantageous manner at the same angular distance from one another on the screen element. The load on the sieve element is thus evenly distributed over the circumference.

In a preferred embodiment, the means for locking the screen element are integrally formed on the screen element and formed from the same material as the screen element. In addition, corresponding means of the adjusting disc recesses in the shim, wherein in the assembled state, the means of Siebelements are arranged in the recesses of the shim.

The sieve element and the integrally formed locking means can thereby be produced in an advantageous manner in one production step, for example by an injection molding process, and the recesses of the shim can likewise be introduced into the shim during the punching of the shim in one production step. Further, it is advantageous that the integrally formed means of the Siebelements are arranged in the recesses of the shim, or engage in the recesses, whereby a positive connection between the sieve and the shim is made and rotation of the components is prevented from each other.

In a further embodiment, the means for locking the sieve element are separate insertion elements, which are arranged in the sieve element and in corresponding recesses of the shim.

By this arrangement, a rotation of the components is prevented to each other in an advantageous manner.

• 1 einen schematischen Längsschnitt einer Hochdruckpumpe nach Stand der Technik im Bereich eines Saugventils und
• 2 einen Ausschnitt einer erfindungsgemäßen Hochdruckpumpe.

Preferred embodiments of the invention are explained below with reference to the accompanying drawings. These show:

• 1 a schematic longitudinal section of a high-pressure pump according to the prior art in the region of a suction valve and
• 2 a section of a high-pressure pump according to the invention.

The 1 shows only a section of a high pressure pump according to the prior art, in the range of an electromagnetically actuated suction valve 4 for filling a high-pressure element space 3 with fuel in a housing part 1 the high pressure pump is integrated. The high-pressure element space 3 is in a cylinder bore 2 of the housing part 1 formed, wherein the cylinder bore 2 for forming a valve seat 7 for a liftable valve lifter 6 of the suction valve 2 stepped is executed. With no-current suction valve 4 becomes the valve lifter 6 from the spring force of a closing spring 5 in the valve seat 7 drawn.

The valve seat 7 is an annulus 21 upstream, in the inlet bores 20 lead to the annulus 21 with one in the housing part 1 trained annular low pressure space 8th connect. The inflow of fuel into the high pressure element space 3 thus takes place via the low-pressure space 8th , the inlet bores 20 and the annulus 21 , To prevent particles from entering the suction valve with the incoming fuel 4 and the high pressure element space 3 is registered in the low-pressure room 8th an annular sieve element 9 added. The sieve element 9 is with an inner peripheral area 11 at a central dome 10 of the housing part 1 arranged radially and on a stop 12 below the dome 10 the housing part arranged axially.

The sieve element 9 divides the low-pressure space 8th in two annular spaces 8.1 . 8.2 over which a screen mesh 15 of the sieve element 9 can be flowed on. The mesh 9 is therefore flows through radially. This has a portafilter 13 made of plastic and a mesh screen 15 on. On the portafilter 13 closes a collar 19 on, which is slightly increased radially outward, so that it forms a kind of spring arm over which the sieve element 9 can be prestressed in the axial direction.

For sealing the low pressure space 8th to the outside is in the housing part 1 a carrier element 22 of the suction valve 4 used, in the outer circumference a sealing ring 23 is inserted, which is against a hollow cylindrical receptacle 24 of the housing part 1 is radially biased. Furthermore, the suction valve 4 a magnet assembly 26 on, on the support element 22 is arranged. The carrier element 22 lies on a dial 17 on, over which the sieve element 9 is held down. At the magnet assembly 26 is a union nut 27 supported, with the hollow cylindrical receptacle 24 of the housing part 1 is bolted and the shim 17 over the carrier element 22 to an annular heel 18 of the housing part 1 supported.

The in 1 described basic construction of the high pressure pump corresponds to the structure of the embodiments of the invention described below.

2 shows a section of a first embodiment of a high-pressure pump according to the invention. The sieve element 9 has two parts 28 . 29 on, wherein in a first subarea 28 the mesh 15 is arranged and a second subarea 29 directly with the dial 17 in contact. The first portion 28 fulfills the function of the portafilter 13 and lies with its inner peripheral area 11 radially on a stop 34 the dome 10 of the housing part 1 at.

The at least partially hollow cylindrical filter holder 13 includes window-like recesses 14 in which the screen mesh 15 is included. The mesh 15 Accordingly, in the main flow direction, ie in the feed direction of the fuel, flows through from radially outside to radially inside. The the sieve fabric 15 receiving window-like recesses 14 are preferably arranged distributed uniformly over the circumference, so that the sieve element 9 is flowed evenly.

The window-like recesses 14 are preferably separated by axially extending webs, not shown. The webs cause a stiffening of the portafilter 13 ,

About the tightening torque of in 1 described union nut 27 is the sieve element 9 over the dial 17 in the axial direction against the housing part 1 prestressable, with the dial 17 against the paragraph 18 of the housing part 1 is attracted.

Between the dial 17 and the first subarea 28 , or the Siebträgers 13 of the Siebelements 9 a gap is formed, allowing a direct contact of the portafilter 13 with the shim 17 is avoided. Furthermore, the sieve element 9 ring around a central axis 41 of the valve lifter 6 trained and the second part 29 is integral to the first section 28 of the sieve element 9 arranged. The sieve element 9 is preferably made of a plastic.

The sieve element 9 indicates at its the suction valve 4 facing the second section 29 of the sieve element 9 on, which forms by a radially outwardly extending collar.

The low pressure room 8th is formed in cross-section at least partially V-shaped and the screen element 9 essentially coaxial with the low pressure space 8th arranged so that it is the low pressure space 8th in the two annular spaces 8.1 . 8.2 divided.

Between the first section 28 of the sieve element 9 and the dial 17 is a means 36 for locking the sieve element 9 on the dial 17 arranged, the means 36 as a catch 36 is formed and in an opposite in the shim 17 introduced recess 38 intervenes. The catch 36 is integral to the screen element 9 formed.

In addition, between the second subarea 29 of the sieve element 9 and the dial 17 another remedy 37 for locking the sieve element 9 on the dial 17 arranged, the means 37 also as a catch 37 is formed and in an opposite in the shim 17 introduced second recess 39 intervenes. The catch 37 is integral to the screen element 9 formed.

The sieve element 9 and the ice slice 17 comprise a plurality of locking means, wherein the means 36 . 37 . 38 . 39 for locking the sieve element 9 at the same angular distance from one another on the sieve element 9 and the dial 17 are arranged.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012210107 A1 [0004]
• DE 102008042617 A1 [0005]

Claims (10)

High-pressure pump for a fuel injection system, comprising a housing part (1), wherein in the housing part (1) for filling a high-pressure element space (3) with fuel, a suction valve (4) is integrated, wherein the suction valve (4), a support member (22) and a magnet assembly (26), wherein a dial (17) between the support element (22) and a shoulder (18) of the housing part (1) is arranged and in the housing part (1) serving as an inlet for the suction valve (4) low pressure chamber (8) in which a sieve element (9) is accommodated, the sieve element (9) having two subareas (28, 29), wherein a sieve cloth (15) is arranged in a first subarea (28) and a second subarea (29) on the shim (17), characterized in that the sieve element (9) and / or the shim (17) has means (36, 37, 38, 39) for locking the Siebelements (9) on the shim (17). High pressure pump after Claim 1 , characterized in that between the shim (17) and the first portion (28) of the sieve (9), a gap is formed. High-pressure pump according to one of the preceding claims, characterized in that the sieve element (9) is formed annularly around a central axis (41) and the second subregion (29) is arranged integrally on the first subregion (28) of the sieve element (9). High-pressure pump according to one of the preceding claims, characterized in that the sieve element (9) at its the suction valve (4) end facing the second portion (29) of the sieve (9) and this is formed by a radially outwardly extending collar. High-pressure pump according to one of the preceding claims, characterized in that the low-pressure space (8) is at least partially V-shaped in cross-section and the sieve element (9) is arranged substantially coaxially to the low-pressure space (8), so that it forms the low-pressure space (8). divided into two annular spaces (8.1, 8.2). High-pressure pump according to one of the preceding claims, characterized in that the means (36, 37, 38, 39) for locking the screen element (9) between the shim (17) and the first portion (28) and / or the second portion (29 ) of the sieve element (9) are arranged. High-pressure pump according to one of the preceding claims, characterized in that the means (36, 37, 38, 39) for locking the screen element (9) are arranged at the same angular distance from each other on the screen element (9). High-pressure pump according to one of the preceding claims, characterized in that the means (36, 37) for locking the screen element (9) integrally formed on the screen element (9) and from the same material as the screen element (9) are formed and corresponding means (36). 38, 39) of the shim (17) recesses (38, 39) in the shim (17), wherein in the assembled state, the means (36, 37) of the Siebelements (9) in the recesses (38, 39) of the shim are. High pressure pump according to one of the Claims 1 to 7 , characterized in that the means (36, 37) for locking the sieve element (9) are separate insertion elements (36, 37) arranged in the sieve element (9) and in corresponding recesses (38, 39) of the shim (17) are. High pressure pump according to one of the Claims 8 or 9 , characterized in that the recesses (38, 39) in the shim (17) are stamped.

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