EP2187037A1 - Fuel measuring unit for a fuel pump - Google Patents

Abstract

The unit has a regulating valve that is actuated by an electromagnet, where the electromagnet moves an anchor bolt by magnetic force. The anchor bolt is mounted on a bearing bush (52) in an axially adjustable manner, where an axial groove (56) is provided in the bearing bush. The axial groove is arranged at an outer side or an inner side of the bearing bush. An inner side of the bearing bush is cylindrically arranged in regions and works as a bearing surface (55) for the anchor bolt in the regions.

Description

State of the art

The invention relates to a fuel metering unit for a fuel pump in an internal combustion engine according to the preamble of claim 1. Furthermore, the subject of the invention is a fuel pump according to the preamble of the corresponding independent patent claim.

Such a fuel metering unit is characterized by the DE 10 2005 025 872 A1 known. This fuel metering unit is used for suction side flow control of a fuel pump, which is part of a fuel injection device of an internal combustion engine. The fuel metering unit has a control valve actuated by an electromagnet with a valve member, by means of which different flow cross sections can be set in the intake region of the high-pressure fuel pump. This regulates the flow rate of the fuel pump. The electromagnet has an armature and a movable anchor bolt, through which the valve member is movable. The anchor bolt is guided axially displaceably in at least one bearing bush. This at least one bearing bush can be made of metal, for example. Of bronze, aluminum or copper or of a fuel and temperature-resistant plastic.

Disclosure of the invention

The object of the invention is to develop a fuel metering unit of the type mentioned in such a way that it has a better performance and an increased life. The fuel metering unit should also be inexpensive.

The object is achieved by a fuel metering unit with the features of claim 1, as well as by a high-pressure fuel pump with the features of the independent patent claim. Features important to the invention are further found in the following description and in the drawing, wherein the features both alone and in different combinations for the invention may be important, without being explicitly noted. Advantageous developments can be found in the subclaims.

In operation of the fuel metering unit, fuel is displaced inside the fuel metering unit, in particular, by the movement of the anchor bolt. In order not to obstruct the function of the fuel metering unit and to prevent operationally adverse changes in the fuel metering unit, pressure equalizing bores are, for example, provided in a bottom of a valve piston and / or in the armature of the fuel metering unit. According to the invention, these pressure compensation holes are at least partially integrated into the bearing bushes necessary for guiding the anchor bolt, in any case, by having an axial groove. These bushings are preferably manufactured separately with high accuracy from an extruded profile to realize on the one hand a tight fit of the bearing bush in a valve housing and on the other hand, the best possible guidance for the anchor bolt. Already during the forming process taking place during extrusion, one or more axial grooves can be provided on the bearing bush without additional production costs. On pressure compensation holes within the valve housing can thus be omitted at least partially. This makes the device according to the invention inexpensive.

Taking into account an overall concept of the fuel metering unit, the axial grooves can be arranged on an outer side or on an inner side of the bearing bush. A single axial groove per bushing may be sufficient. When using a plurality of axial grooves, it is generally advantageous to distribute the axial grooves uniformly over the circumference in order to ensure accurate guidance of the anchor bolt. In the arrangement of the axial grooves on the inside of the bushings, an additional advantage results when the axial grooves are dimensioned so that the contact surface between a bearing surface and the anchor bolt minimized and as a result, the frictional resistance is reduced. This also makes it possible to keep the inner bore of the bearing bush over the entire length constant.

In order to reduce the frictional resistance of the anchor bolt, it is further possible that the inside of the bearing bush is designed only partially cylindrical and this thus only partially acts as a bearing surface for the anchor bolt. This means, conversely, that the inner diameter of the bearing bush is larger in regions than the inner diameter in the region of the bearing surface. The area with the larger one Diameter can be arranged only on one side of the bearing bush. But it can also be arranged on both sides of the bearing bush, so that the actual bearing surface for the anchor bolt is located in the middle of the bearing bush. In this case, the region of the bearing bush with a larger inner diameter can, for example, be conical or simply cylindrical with a larger diameter.

It is also advantageous that the bearing bush is made by forming material, in particular drawing or extrusion. The advantage of extrusion, for example, is the ability to produce profiles with great precision, even in the most complicated shapes or in difficult-to-form materials. As a result, the choice of the usable material is almost arbitrary. The high degree of deformation achievable in one process step and the relatively low tool costs make the production process effective and cost-effective. Alternatively, the bushing can also be made by drawing round stock by a die, which is also effective and inexpensive.

Brief description of the figures

Figur 1

eine erfindungsgemäße Kraftstoffzumesseinheit in einem Längsschnitt; und

Figur 2

eine vergrößerte Schnittdarstellung und eine Draufsicht der Lagerbuchse aus Figur 1.

An embodiment of the invention will be explained by way of example with reference to FIGS. Show it:

FIG. 1

a fuel metering unit according to the invention in a longitudinal section; and

FIG. 2

an enlarged sectional view and a plan view of the bearing bush FIG. 1 ,

Detailed description of the embodiment

In FIG. 1 a fuel metering unit according to the invention is shown in a longitudinal section. It is indicated in its entirety by the reference numeral 1. The fuel metering unit 1 is disposed in the fuel flow between a prefeed pump and a high-pressure fuel pump of a fuel injector for an internal combustion engine, and serves to variably adjust the amount of fuel delivered by the high-pressure fuel pump. By the fuel metering unit 1, a variable flow cross-section is set between the prefeed pump and the high-pressure fuel pump. The fuel metering unit 1 is driven by an electronic control device (not shown) through which Operating parameters of the internal combustion engine are evaluated and depending on a required flow rate of the high-pressure fuel pump is determined.

The fuel metering unit 1 has an electromagnet 10 and a control valve 12 operated by it. The essential components of the electromagnet 10 are a magnetic coil 14, an armature 16 with anchor bolt 18 and a magnet pot 20 which surrounds the magnetic coil 14 and the armature 16 partially. Anchor bolt 18 and solenoid 14 may be made in one piece or as separate components. The magnetic pot 20 is partially encapsulated in plastic, wherein on the encapsulation 21, a plug housing 22 is formed in which at least one electrical connection 24 is arranged for the magnetic coil 14.

The control valve 12 has a valve housing 30, which also serves as a magnetic core. In the valve housing 30, a longitudinal bore 32 is provided, in which a piston-shaped valve member 34 of the control valve 12 is guided displaceably. The valve member 34 is cup-shaped and hollow, at the bottom 36 of the anchor bolt 18 abuts. The valve member 34 is held by an arranged in this prestressed spring 38 in contact with the anchor bolt 18. The spring 38 is supported on the one hand on the inside of the bottom 36 of the valve member 34 and on the other hand on an annular securing element 39 inserted into the longitudinal bore 32. In the bottom 36 of the valve member 34 at least one, preferably a plurality of openings 37 are provided through which during the axial movement of the valve member 34 in the longitudinal bore 32 fuel can flow. Through the openings 37 is a pressure compensation (in FIG. 1 ) in the lower portion of the fuel metering unit 1 on both sides of the valve member 34 in the longitudinal bore 32 allows.

At least one, preferably a plurality of openings 40, for example in the form of radial bores, are provided on the circumference of the valve housing 30 and are connected to a fuel inlet from the prefeed pump. The openings 40 can open on the circumference of the longitudinal bore 32 in the valve housing 30 in a circumferential annular groove 42. On the valve housing 30, an annular filter 44 can be arranged in the region of the openings 40, by which it is prevented that contaminants can enter the control valve 12. The fuel flow from the control valve 12 to the high-pressure fuel pump out from the interior of the valve member 34 through the open, the electromagnet 10 side facing away from the valve housing 30 from the longitudinal bore 32 out.

The valve member 34 has in its periphery near its open end at least one, preferably a plurality of control openings 46, through which the size of the flow cross-section between the inlet and outlet of the control valve 12 is controlled during the axial movement of the valve member 34 in the longitudinal bore 32. The more the control openings 46 are in register with the annular groove 42, the larger the flow area. In FIG. 1 the valve member 34 is shown in the left half in its fully open position and in the right half in its closed position. Between the armature 16 and the valve housing 30, a residual air gap disk 31 is arranged, by which it is prevented that the armature 16 comes to rest on the valve housing 30.

The anchor bolt 18 projects from the magnet pot 20 through an opening 50 in the valve housing 30 into the longitudinal bore 32. The opening 50 can form a bearing point for the anchor bolt 18, in which it is guided in the direction of its longitudinal axis 19 slidably. In its end region remote from the valve housing 30, the anchor bolt 18 is displaceably guided in a bearing bush 52 in the direction of its longitudinal axis 19. The bushing 52 is inserted into a hollow cylindrical receptacle 53 of the magnet pot 20, preferably pressed. In FIG. 1 Above the bearing bush 52, the fuel metering unit 1 has a cavity 54.

With reference to FIG. 2 For example, the bushing 52 will be described below. The bushing 52 is designed as a solid undivided component made of metal or a suitable plastic having a cylindrical outer shape and has an outer diameter D, on which the bearing bush 52 is pressed into the receptacle 53. On the inside, the bearing bush 52 has a cylindrical bearing surface 55 with a diameter d, in which the anchor bolt 18 is guided with little radial play. The bushing 52 is made by forming, in particular drawing or extrusion. The bearing surface 55 of the bushing 52 may be provided with a lubricious coating or a slid surface to improve the sliding properties and to achieve high wear resistance.

In FIG. 2 a groove 56 is arranged in the upper region of the plan view, which extends axially over the entire length of the bearing bush 52. The axial groove 56 forms after pressing the bearing bush 52 into the receptacle 53 a cavity which serves for pressure equalization in the cavity 54 when moving the anchor bolt 18. In different embodiments, a plurality of axial grooves may also be arranged on the outer side (cf., reference numeral 56a) and / or on the inner side, that is, the bearing surface 55 (see reference numeral 56b). It should be noted that the axial grooves are evenly distributed over the circumference of the bearing bush to ensure accurate guidance of the anchor bolt 18. A particularly economical embodiment of the bearing shell according to the invention provides that the axial grooves 56b are dimensioned so that the contact surface between the bearing surface 55 and anchor bolt 18 minimized and as a result, the frictional resistance is reduced. As a result, it is also possible to keep the inner bore 55 of the bearing bush 52 constant over the entire length and finish it during the forming process.

The inner diameter d and the outer diameter D and thus the wall thickness of the bearing bush 52 can be selected substantially arbitrarily. With the bearing bush 52 thus relatively large differences in diameter between the anchor bolt 18 and the recording of the bearing bush 52 in the magnet pot 20 can be compensated. This facilitates the production of the magnetic pot 20, since this must have a relatively large diameter in the region of the armature 16 and the adjoining receptacle for the bearing bush 52 in diameter only has to be made slightly smaller, since the difference in diameter to the anchor bolt 18 through the bearing bush 52 is compensated.

Claims (10)

A fuel metering unit (1) for controlling the flow rate of a fuel pressure pump of a fuel injector for an internal combustion engine, the fuel metering unit (1) having a control valve actuated by an electromagnet (10), the solenoid (10) moving an armature bolt (18) by its magnetic force, and wherein the armature bolt (18) is axially displaceably mounted in at least one bearing bush (52), characterized in that the at least one bearing bush (52) has at least one axial groove (56; 56a; 56b). Fuel metering unit (1) according to claim 1, characterized in that the at least one axial groove (56; 56a) is arranged on an outer side of the bearing bush (52). Fuel metering unit (1) according to claim 1, characterized in that the at least one axial groove (56b) on an inner side (55) of the bearing bush (52) is arranged. Fuel metering unit (1) according to one of the preceding claims, characterized in that a plurality of axial grooves (56; 56a; 56b) are distributed uniformly over a circumference of the bearing bush (52). Fuel metering unit (1) according to one of the preceding claims, characterized in that the inside of the bearing bush is made partially cylindrical and thus partially acts as a bearing surface for the anchor bolt. Fuel metering unit (1) according to one of the preceding claims, characterized in that an inner diameter of the bearing bush is larger in regions than the inner diameter in the region of the bearing surface. Fuel metering unit (1) according to one of the preceding claims, characterized in that the bearing bush (52) is produced by forming, in particular drawing or extrusion. Fuel metering unit (1) according to one of the preceding claims, characterized in that the control valve has a valve member (34), and that the valve member (34) cooperates with the anchor bolt (18). Fuel metering unit (1) according to one of the preceding claims, characterized in that an armature (16) is arranged on the anchor bolt (18). High-pressure fuel pump for a fuel injection device of an internal combustion engine having a fuel metering unit (1) for suction-side flow rate control, characterized in that the fuel metering unit (1) is designed according to one of claims 1 to 9.

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