EP1523619A1

EP1523619A1 - Fuel injection valve and method for mounting a fuel injection valve in a valve seat

Info

Publication number: EP1523619A1
Application number: EP02758090A
Authority: EP
Inventors: Hans Waldemar; Christof Vogel; Helmut Hennemann
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2002-07-12
Filing date: 2002-07-12
Publication date: 2005-04-20
Also published as: US20050116056A1; WO2004015263A1; JP2005533221A

Abstract

The invention relates to a fuel injection valve (1), the intake end (2) of which is provided with a inlet port (11). The outer periphery of said inlet port (11) comprises at least two sealing rings (13, 14) which seal the fuel injection valve towards a valve seat (3), are disposed in a ring chamber (18, 19), respectively, being separated from each other in an axial direction by means of an intermediate ring (15). Said intermediate ring (15) is independent of the inlet port (11) and comprises two parts. A flexible outer ring (26) is locked on top of an inner injection-molded supporting ring (22). The outer ring (26) is mounted only once the first sealing ring (14) has been moved over the supporting ring (22) and has been stripped. The inventive fuel injection valve is particularly suitable for mixture-compressing, externally ignited internal combustion engines.

Description

Fuel injector and method for mounting a fuel injector in a valve receptacle

State of the art

The invention relates to a fuel injector according to the preamble of claim 1 and a method for assembling a fuel injector in a valve holder according to the preamble of claim 10.

Various fuel injection valves are already known, on the outer circumference of which a plurality of sealing elements in the form of sealing rings are arranged in succession in order to ensure effective sealing of the fuel injection valve with respect to a valve seat.

For example, from DE 28 27 789 AI known to provide two sealing rings on a stepped inlet connection of the fuel injector. These can be designed, for example, as whole ring assemblies, which then have a stuffing box ring, an O-ring, an asbestos ring and an unsmelted melting ring directly in succession. From DE 28 27 878 AI, fuel injection valves are already known, the sealing of which is carried out by means of sealing packets, with additional rings with so-called so-called O-shaped rings

Emergency sealing properties are provided. In addition, too still known from DE 28 27 850 AI, spacing two sealing rings on the circumference of the fuel injection valve by means of a shoulder projecting radially beyond the outer circumference of the inlet connection.

In addition, from DE 37 03 615 AI a sealing arrangement on a fuel injector is known, in which two sealing rings each independently surround one of two connecting pieces and each seal a fuel supply line accordingly.

Furthermore, a fuel injection system is known from DE 197 35 665 AI, in which a fuel injection valve by means of an intermediate piece with a valve receptacle

Fuel supply line is connected and sealed against it. In this arrangement, both the inlet connector of the fuel injection valve and the intermediate piece each have a sealing ring on their outer circumference, which are thus spatially clearly separated from one another.

Advantages of the invention

The fuel injector according to the invention with the characterizing features of claim 1 has the advantage that a sealing arrangement with two sealing rings is provided on its outer circumference, which is particularly easy to install, which avoids overstretching and over-expansion of the sealing rings and thus in principle damage to the sealing rings, which nevertheless Sufficiently large support shoulders for the sealing rings are guaranteed and, due to the increasingly stringent environmental requirements, completely prevents the release of hydrocarbons into the environment. Advantageous further developments and improvements of the fuel injector specified in claim 1 are possible through the measures listed in the subclaims.

The particularly simple handling of the two subcomponents of the intermediate ring is advantageous. While the inner support ring with an inwardly projecting nose can be mounted very easily in a groove on the inlet connector of the fuel injector, the outer ring can be easily and securely locked onto the support ring.

The latching bead on the support ring which is used for latching is advantageously designed in such a way that the high compression forces of the one sealing ring are absorbed by an upper horizontal latching surface when the fuel injector is installed in the receiving connector. The lower axial dismantling forces of the other sealing ring are sufficiently absorbed by a lower, obliquely designed locking surface of the locking bead.

The method according to the invention for assembling a fuel injection valve in a valve holder with the characterizing features of claim 10 has the advantage that the entire assembly can be carried out fully automatically. In a particularly advantageous manner, the sealing rings are treated very gently during assembly, which is why damage to the sealing rings is excluded. It is particularly advantageous that the sealing rings hardly have to be spread apart despite being brought into annular chambers that are separate from one another and therefore do not have to be dangerously overstretched. The two-part design of the intermediate ring ensures that the first sealing ring can be installed without overstretching and that there are sufficient support shoulders for both sealing rings.

drawing An embodiment of the invention is shown in simplified form in the drawing and explained in more detail in the following description. 1 shows an inlet end of a fuel injection valve with a sealing arrangement according to the invention for sealing the fuel injection valve with respect to a valve seat, and FIG. 2 shows an enlargement of section II in FIG. 1.

Description of execution examples

1 shows a fuel injector 1, which is designed, for example, as an injection valve for injecting fuel directly into the combustion chamber of a mixture-compressing, spark-ignition internal combustion engine. With an inlet end 2, the fuel injection valve 1 projects into a corresponding valve seat 3.

The valve receptacle 3 is, for example, as a cup-shaped

Recording port 4 formed, the part of a fuel not shown supply, eg. B. of a fuel rail. The fuel supply line usually has a plurality of receptacles 4, so that the fuel supplied via the fuel supply line can be distributed to a plurality of fuel injection valves 1. The recording clip 4 is z. B. executed step-like and has at its end facing away from the fuel supply line one or more protruding fastening elements 5. This loading elements 5 engage in openings 6 of a mounting bracket 7, which is used to reliably secure the fuel fine injection valve 1 in the valve seat 3. The mounting bracket 7 is, for example, in a circumferential groove 8 on the outer circumference of a plastic injection molding 9 of the

Fuel injector 1 used. For example, the fuel injection valve 1 is largely surrounded by the plastic encapsulation 9. At the inlet end 2 of the fuel injection valve 1, however, a metal inlet connection 11, which serves to supply fuel to the interior of the fuel injection valve 1, protrudes from the plastic extrusion coating 9. Above the plastic encapsulation 9, two sealing rings 13, 14 designed as O-rings are arranged on the outer circumference of the inlet connector 11. The two sealing rings 13, 14, which follow one another axially close, are spatially spaced apart from one another by an intermediate ring 15 designed according to the invention. The upstream end of the fuel injection valve 1 is formed by an upper securing ring 16 which is applied to the inlet connection 11

Plastic. In this way, the two sealing rings 13, 14 are embedded between the locking ring 16 and the upper end face 17 of the plastic encapsulation 9, two annular chambers 18, 19 for the sealing rings 13, 14 being formed by the intermediate ring 15.

In contrast to the sealing rings with so-called emergency sealing properties, some of which are known from the prior art, the two sealing rings 13, 14 are two "full-fledged" sealing rings made of known elastomer sealing material In the long-term use of sealing rings, it has been shown that hydrocarbons can permeate through the elastomers commonly used for sealing rings and can fully enforce them. To completely prevent the release of hydrocarbons to the environment in the course of increasingly stringent environmental regulations, it is advantageous to have another one immediately after a first sealing ring To arrange sealing ring. In this way, the second sealing ring behind a sealing ring penetrated in the manner described above offers significantly improved sealing reliability.

The intermediate ring 15, which divides the sealing space into two annular chambers 18, 19, consists of two subcomponents. An inner support ring 22 engages, for example, in a circumferential groove 23 on the circumference of the inlet connector 11. In iόlealer manner, the support ring 22 is simultaneously with the

Injection molded plastic 9 and the circlip 16 molded onto the metal valve body in a plastic injection process. On its inside, the support ring 22 has an inwardly projecting, bevelled nose 24 which can be inserted into the groove 23 with a precise shape. On the outer diameter of the support ring 22 there is a radially outwardly extending locking bead 25, on which an outer ring 26, which also belongs to the intermediate ring 15, can be locked.

The area of the locking bead 25 is shown enlarged in FIG. 2. The locking bead 25 on the support ring 22 is designed such that the high compression forces of the second sealing ring 13 are absorbed by an upper locking surface 28 which is largely perpendicular to a longitudinal valve axis 30 when the fuel injector 1 is mounted in the receiving connector 4. The lower axial disassembly forces of the first sealing ring 14 are sufficiently absorbed by a lower, obliquely designed locking surface 29 of the locking bead 25. The outer ring 26 consists of a flexible plastic. When the outer ring 26 is mounted on the inner support ring 22, this plastic expands and then engages in the end position over the locking bead 25. The intermediate ring 15 consisting of the outer ring 26 and the support ring 22 serves as a support shoulder for the second sealing ring 13. The assembly of the sealing arrangement on the inlet connection 11 of the fuel injection valve 1 is briefly explained below. As already described above, the plastic extrusion 9, the inner support ring 22 of the

Intermediate ring 15 and the circlip 16 are injection molded onto the metal valve body. Subsequently, the first sealing ring 14 is spread, placed on the inlet connector 11, moved over the support ring 22 and stripped into the annular chamber 19. The outer ring 26 is then clipped onto the inner support ring 22 to complete the intermediate ring 15. Subsequently, the second sealing ring 13 is spread out, placed on the inlet connector 11 and stripped into the ring chamber 18. With the sealing arrangement thus mounted on the inlet connection 11, the fuel injection valve 1 can be introduced into the valve receptacle 3.

The invention is not restricted to the exemplary embodiment shown. So it is also conceivable, e.g. to design the inlet connection 11 in the area of the sealing rings 13, 14 in a stepped manner and / or to use sealing rings 13, 14 with different cross sections or diameters.

Claims

claims

1. Fuel injection valve (1), in particular for injecting fuel into the combustion chamber of a mixture-compressing, spark-ignited internal combustion engine, with a longitudinal valve axis (30), with an inlet connection (11) arranged on the inlet-side end (2) and with at least two on the outer circumference of the inlet connection (11) provided sealing rings (13, 14) which serve to seal the fuel injection valve (1) with respect to a valve seat (3), characterized in that the two sealing rings (13, 14) are axially spaced apart from one another by an intermediate ring (15) an annular chamber (18, 19) are present, the intermediate ring (15) being made in two parts independently of the inlet connection piece (11).

2. Fuel injection valve according to claim 1, characterized in that the intermediate ring (15) from an inner support ring (22) and an outer ring (26) is composed.

3. Fuel injection valve according to claim 2, characterized in that the inner support ring (22) with an inwardly projecting nose (24) engages in a groove (23) of the inlet connector (11).

4. Fuel injection valve according to claim 2 or 3, characterized in that the inner support ring (22) is made of a plastic.

5. Fuel injection valve according to claim 4, characterized in that the inner support ring (22) consists of the same plastic as one

Plastic injection molding (9) partially surrounding the fuel injection valve (1).

6. Fuel injection valve according to one of claims 2 to 5, characterized in that on the outer diameter of the support ring (22) is provided a radially outward locking bead (25) on which the outer ring (26) can be locked.

7. The fuel injector according to claim 6, characterized in that an upper locking surface (28) of the locking bead (25) extends largely perpendicular to the valve longitudinal axis (30) and a lower locking surface (29) is designed obliquely.

8. Fuel injection valve according to one of claims 2 to 7, characterized in that the outer ring (26) is made of a flexible plastic.

9. Fuel injection valve according to one of the preceding claims, characterized in that the intermediate ring

(15) forms a support shoulder for at least one of the sealing rings (13).

10. A method for mounting a fuel injection valve (1) in a valve receptacle (3), the fuel injection valve (1) having an inlet connection (11) at the inlet end (2), at least two sealing rings (13, 14) being provided on the outer circumference thereof , the are axially spaced apart from one another by an intermediate ring (15) and serve to seal the fuel injection valve (1) with respect to the valve seat (3), characterized in that an inner support ring (22) of the intermediate ring (15) is attached to the circumference of the inlet connector (11) is then spread the first sealing ring (14), placed on the inlet port (11), moved over the support ring (22) and stripped into an annular chamber (19), then an outer ring (26) on the inner support ring (22) Completion of the intermediate ring (15) is applied and then the second sealing ring (13) is spread, placed on the inlet connector (11) and stripped into a further annular chamber (18) and then the fuel injection valve (1) with the so on the inlet connector ( 11) mounted sealing arrangement is introduced into the valve seat (3).

11. The method according to claim 10, characterized in that the inner support ring (22) of the intermediate ring (15) is injection molded in the same U injection process on the circumference of the inlet connector (11) as a plastic injection molding (9) surrounding the fuel injection valve (1) at least partially.

12. The method according to claim 10, characterized in that the outer ring (26) of the intermediate ring (15) on a

Snap bead (25) of the inner support ring (22) is locked.

13. The method according to any one of claims 10 to 12, characterized in that the fuel injection valve (1) after introduction into the valve receptacle (3) by means of the

Valve receptacle (3) and corresponding fastening elements (5, 7) provided on the fuel injection valve (1) are secured.