Valve for metering a fluid

Abstract

A valve is used to meter a fluid. The valve can be fashioned in particular as a fuel injection valve for internal combustion engines. The valve has a housing part that is surrounded on its outer side by an extrusion coating. On the outer side of the housing part there is fashioned at least one recess into which the extrusion coating is at least partly introduced.

Claims

1. A valve for metering a fuel, comprising: a housing having at least one housing part that is surrounded on its outer side by an extrusion coating, the housing part having a plurality of punctiform recesses on its outer side into which the extrusion coating is at least partly introduced; wherein the valve is a fuel injection valve for an internal combustion engine, wherein the plurality of punctiform recesses is made as at least one of a bore in the housing part and a hole in the housing part, wherein the plurality of punctiform recesses are on the outer side of the housing part, wherein the plurality of punctiform recesses are situated on the outer side so as to be distributed around a circumference of the housing part, wherein the extrusion coating is inserted at least partly into the punctiform recesses, so that a positive-fit connection is formed between the housing, which is a valve housing, and the extrusion coating, so that a rotation of the extrusion coating relative to the valve housing, about a longitudinal axis along a length of the valve housing, is prevented, and so that a position of a rotational fixing relative to the longitudinal axis also determines an orientation of a valve seat body, wherein on the extrusion coating there is a terminal for a solenoid and the rotational fixing, which is formed at least partly from an element inserted into the extrusion coating, so that the rotational fixing is joined to the extrusion coating on the housing part, wherein the extrusion coating partly surrounds an inner pole and a connecting sleeve that form further housing parts of the valve housing, and are integrated into the valve housing, wherein the solenoid, surrounded at least partly by the extrusion coating, has a joining gap to a cover, so that the extrusion coating and the solenoid are rotatable relative to the cover during assembly, wherein the plurality of punctiform recesses are situated equidistant from one another along a circumferential line on the outer side, so that the plurality of punctiform recesses are distributed uniformly around the circumference on the outer side, and wherein the rotational fixing as recited is separate from the terminal and has a longitudinal axis which is parallel to the longitudinal axis along a length of the valve housing.

2. The valve as recited in claim 1, wherein the outer side of the housing part is based on a rotationally symmetrical basic shape in which the plurality of punctiform recesses is made.

3. The valve as recited in claim 1, wherein the outer side of the housing part is based on a cylindrical jacket-shaped basic shape in which the plurality of punctiform recesses is made.

4. The valve as recited in claim 1, wherein the rotational fixing with the extrusion coating is joined onto the housing part.

5. The valve as recited in claim 1, wherein the valve housing, including the housing part, and an outer side of the valve housing, including the outer side of the housing part, is based, at least in a region of the extrusion coating, on a rotationally symmetrical basic shape, the plurality of punctiform recesses being in the outer side of the housing part.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) Preferred exemplary embodiments of the present invention are explained in more detail below, with reference to the FIGURE.

(2) FIG. 1 shows a valve in a schematic representation, corresponding to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

(3) FIG. 1 shows a valve 1 for metering a fluid. Valve 1 is preferably used for metering a fuel, in particular gasoline or a fuel containing gasoline. Here, valve 1 can be fashioned as high-pressure injection valve 1, in particular as high-pressure fuel injection valve 1.

(4) Valve 1 has a valve housing 2 and an extrusion coating 3. Extrusion coating 3 here surrounds an outer side 4 of a housing part 5 of valve housing 2. On extrusion coating 3 there is made a terminal 6 for a solenoid 7 and a rotational fixing 8. The rotational fixing 8 is fashioned as a part of extrusion coating 3 in this exemplary embodiment. In a modified embodiment, rotational fixing 8 can also be formed completely or partly from an additional element inserted into extrusion coating 3. In this way, the rotational fixing is joined to extrusion coating 3 on housing part 5.

(5) In this exemplary embodiment, extrusion coating 3 also partly surrounds an inner pole 9 and a connecting sleeve 10 that form further housing parts 9, 10 of valve housing 2, and are integrated into valve housing 2. Solenoid 7, surrounded at least partly by extrusion coating 3, can have, from the point of view of assembly, a joining gap to a cover 11. For this reason, if no further measures were provided, extrusion coating 3 with solenoid 7 would also be able to rotate at least by a few degrees.

(6) Valve housing 2 moreover has a nozzle body 12 on which valve seat body 13 is mounted. As a rule, at least nozzle body 12 is inserted into a suitable receptacle bore, valve seat body 13 being oriented towards a chamber, in particular a combustion chamber.

(7) In particular the outer side 4 of housing part 5 is based on a rotationally symmetrical basic shape, in particular a basic shape in the form of a cylindrical jacket, which is rotationally symmetrical, or cylindrically jacket-shaped, relative to a longitudinal axis 14 of valve housing 2. In this basic shape of outer side 4, a plurality of recesses 15 are made. To simplify the representation, here only one recess 15 is depicted. In this exemplary embodiment, recesses 15 are situated equidistant from one another along a circumferential line 16 on outer side 4. In this way, recesses 15 are distributed uniformly around the circumference on outer side 15.

(8) For example using a laser, which can also be used for a laser welding of valve housing 2, a laser boring of recesses 15 can take place along circumferential line 16. For this purpose, a relative movement between the laser and valve housing 2, relative to longitudinal axis 14, is carried out corresponding to a rotation about longitudinal axis 14. Here, housing part 5 can however also be provided with such recesses 15 before assembly.

(9) Recesses 15 can be realized as bores. Such bores can be realized as through-bores 15 or also as blind-hole bores 15. Recesses 15 can also be realized as holes having a cross-section that is not necessarily circular, which can be fashioned as through-holes 15 or as blind holes 15.

(10) In a modified embodiment, it is possible for only a single recess 15, in particular an individual bore 15 or an individual hole 15, to be fashioned on outer side 4 of housing part 5.

(11) Depending on the design of valve 1, housing part 5 can also be a component of inner pole 9 or a component of connection sleeve 10. In addition, it is possible for a plurality of recesses 15 to be provided, and for these recesses 15 to be provided not only on a single component, but on two or more components 5, 9, 10. Specifically, recesses 15 can be provided alternately on two components 5, 9, 10.

(12) During the extrusion coating of housing part 5, extrusion coating 3 is inserted at least partly into recesses 15, so that a positive-fit connection is formed between valve housing 2 and extrusion coating 3. In this way, a rotation of extrusion coating 3 relative to valve housing 2, about longitudinal axis 14, is prevented. This has the consequence that the position of the rotational fixing 8 relative to longitudinal axis 14 also determines the orientation of the valve seat body 13. Nozzle openings provided on a nozzle region 17 of valve seat body 13 can be reliably positioned in this way. A particular pattern of injection into the assigned chamber, in particular combustion chamber, can in this way be realized in a specified manner. Rotational fixing 8 enables a reliable positioning over the life span of valve 1.

(13) In a modified embodiment, circumferential lines 16 differing from one another can also be provided, on which recesses 15 are situated. In a further modified embodiment, a plurality of recesses 15 can also be fashioned on outer side 4, offset along longitudinal axis 14. In addition, a plurality of recesses 15 can also be situated on outer side 4 in some other way.

(14) The present invention is not limited to the described exemplary embodiments.