The present application claims priority under 35 U.S.C. § 119 to DE 10 2017 219 626.2, filed in the Federal Republic of Germany on Nov. 6, 2017, the content of which is hereby incorporated by reference herein in its entirety.
The present invention relates to a mounting system for injection systems, in particular fuel injection systems, for connecting a metering valve to a fluid-conveying component; and to an injection system having such a mounting system. The invention relates in particular to the field of fuel injection systems for mixture-compressing spark-ignited internal combustion engines.
DE 10 2013 200 993 A1 discloses a fuel injection system having a fuel-conveying component, a fuel injection valve, and a mounting system. In the known mounting system, a receiving space, in which a fuel fitting of the fuel injection valve is disposed, is provided inside a cup of the fuel-conveying component. An internal collar is configured on the cup. Also provided is an elastically deformable element that is braced against the internal collar. The fuel fitting is then braced via the elastically deformable element. Mounting of the fuel injection valve on the fuel-conveying component is thereby possible, a reduction in noise being possible as a result of targeted decoupling.
Reducing engine noise is important nowadays not only in terms of noise perceptible in the vehicle interior. In the context of a sales discussion, certain engine noises can be perceived by a customer as undesirable when the engine is idling, especially with the hood open. This relates in particular to metallic transitions in the context of the fuel injection valve mounting system. It can furthermore be assumed that as fuel injection pressure increases, such undesired noises will be at least subjectively perceived to be louder.
Example embodiments of the present invention provide improved mounting of a metering valve on a fluid-conveying component. In particular, improved installation at least with reference to suitable application instances can be achieved.
The mounting system and the injection system are suitable especially for applications for fuel injection, in particular direct gasoline injection. The fluid-conveying component is then embodied as a fuel-conveying component. The metering valve is then embodied as a fuel injection valve. Advantages and refinements described with reference to these preferred applications can, however, also correspondingly be utilized generally in a mounting system for injection systems and in injection systems.
The fuel-conveying component is preferably embodied for that purpose as a fuel distributor, in particular as a fuel distributor rail. A fuel distributor of this kind can serve on the one hand to distribute fuel to several fuel injection valves, in particular high-pressure injection valves. On the other hand, the fuel distributor can serve as a common fuel reservoir for the fuel injection valves. The fuel injection valves are then preferably connected to the fuel distributor via corresponding mounting systems. During operation, the fuel injection valves then inject the fuel necessary for the combustion operation, at high pressure, into the respective combustion chamber. The fuel is compressed via a high-pressure pump and delivered into the fuel distributor in quantitatively controlled fashion via a high-pressure conduit.
The support part disposed on the connector piece is preferably embodied as a separate support part that can be connected in suitable fashion to the connector piece of the injection valve. In principle, the support part can also be a constituent of the connector piece. The connector piece is thus not necessarily a constituent of a mounting system according to the present invention. In particular, a mounting system according to the present invention can, if applicable, also be manufactured and marketed separately from the fuel injection valve. The connector body can be a constituent of the fuel-conveying component. In particular, the connector body can be configured as a cup of a fuel distributor. The connector body can, however, also be connected at a later time to a basic body of a fuel distributor, for example by welding. A mounting system according to the present invention can thus, if applicable, also be manufactured and marketed independently of such further components, in particular a basic body, of the fuel-conveying component.
A dished disk is configured so that its dished surface is part of a sphere surface or part of a surface of a sphere segment. The spherical support surface is correspondingly embodied respectively as part of a sphere surface or as part of a surface of a sphere segment. The decoupling element preferably abuts at least largely against the entire dished surface of the dished disk and/or at least largely against the entire spherical support surface of the support part. The local mechanical load is thereby reduced. Improved geometrical alignment and bracing in different spatial directions can also be achieved. In particular, advantageous alignment and bracing of the fuel injection valve with reference to a longitudinal axis predefined by the connector body can be enabled. This also results in improved positioning in, for example, a cylinder orifice of the internal combustion engine.
A result that can be obtained thereby in particular is that a direct transfer path between the fuel injection valve and a cylinder head is absent. Fastening means between the fuel injection valve and the cylinder head, for example bolts that are inserted into elastic bearing bushings for noise insulation, can thereby also be absent.
An example embodiment of the present invention enables simple installation of the fuel injection valve. Upon insertion of the connector piece of the fuel injection valve into the receiving space of the connector body, the dished disk can also be inserted into the receiving space and then immobilized in simple fashion. This results in fastening of the connector piece to the connector body of the component. Together with the fuel pressure that acts during operation, reliable immobilization of the fuel injection valve is then produced because forces acting on the connector piece by way of the fuel pressure are absorbed via the dished disk connected to the connector body. According to an example embodiment, the retaining element in particular can be configured in at least approximately a U-shape.
According to an example embodiment, an at least approximately constant thickness of the decoupling element in the unloaded state can be defined. According to an example embodiment, the decoupling element is advantageously constituted at least partly from at least one elastomer. The decoupling element can be shaped at least partly as a net-shape shaped part, in particular as a plastic injection-molded part, a thermoplastic elastomer part, a natural rubber part, or a synthetic rubber part, and/or can be cut out from a strip- or plate-shaped precursor material and/or shaped in another manner.
Additionally or alternatively, the decoupling element can be constituted at least partly from a thermoplastic material or a curable plastic material. In particular, the decoupling element can advantageously have, in accordance with an example embodiment, a layered structure, in particular a sandwich structure. A layered structure is not necessarily limited in this context to two or three layers. A layered structure in which an elastic layer is located between two non-elastic layers is nevertheless advantageous. According to an example embodiment, an advantage is provided that not only good robustness but also an advantageous damping effect can be achieved.
An example embodiment provides an advantage that a solid and robust configuration of the decoupling element is possible.
According to an example embodiment, at least one groove and/or at least one slit and/or at least one preferably tangential orifice is provided on the dished surface.
Preferred exemplifying embodiments of the invention are explained in further detail in the description below with reference to the appended drawings, in which corresponding elements are labeled with matching reference characters.
Connector piece 5 is inserted at least partly into receiving space 9 of connector body 8. Fuel sealing is ensured in this context by way of a sealing ring 10.
A dished disk 11, on which a dished surface 12 (
In the installed state, a decoupling element 15 is disposed between dished surface 12 of dished disk 11 and spherical support surface 14 of support part 13. Decoupling element 15 preferably abuts substantially against the entire dished surface 12 and/or at least substantially against the entire spherical support surface 14, so that full-coverage abutment of decoupling element 15 on both sides, respectively against dished surface 12 and spherical support surface 14, is produced.
In the installed state, fuel injection valve 3 is then aligned with reference to a longitudinal axis 20, predefined by connector body 8, of receiving space 9. Reliable positioning of fuel injection valve 3 in a cylinder-head orifice can correspondingly be accomplished, for example. Mounting system 2 makes additional fastening or bracing (by way of a metallic contact) of fuel injection valve 3 against the cylinder head superfluous. Transfer of vibrations between fuel injection valve 3 and the cylinder head is thereby, in particular, avoided. Insulation of fuel injection valve 3 from connector body 8 and thus from fuel-conveying component 4 is furthermore provided by decoupling element 15. This reduces or prevents, in particular, the transmission of solid-borne sound. An elastic retaining clamp 20A, which is disposed between connector body 8 and fuel injection valve 3, can be provided.
In this exemplifying embodiment, immobilization of dished disk 11 on connector body 8 is accomplished via a retaining element 21. Connector body 8 has openings 22, 23. Retaining element 21 can thereby be installed from outer side 24. In the installed state, retaining element 21 engages through openings 22, 23 into at least one recess 25 (
Several possibilities therefore exist for configuring a decoupling element 15 in terms of the respective application instance. A layered structure having two or more layers, one of which is described with reference to
A variety of modifications are possible in terms of the configuration of fuel injection system 1 and of mounting system 2. For example, support part 13 can be connected in suitable fashion to connector piece 5 of fuel injection valve 3. Pressing on, welding, or soldering are possible. A loose or detachable connection is, however, also possible. It is also conceivable in this context for the position along longitudinal axis 20 to be adjustable within certain limits and then immobilizable.
In a modified configuration, support part 13 can also have a flat or conical support surface 14. Instead of a dished disk 11, a support disk 11′ that has a respectively flat or conical support disk surface 12′ is then correspondingly provided. Support part 13 can furthermore be not only annularly configured. In particular, support part 13 can also be configured in the form of a partial ring or several ring parts in order to enable lateral fitting onto connector piece 5 with reference to longitudinal axis 20.
The invention is not limited to the embodiments described.
Number | Date | Country | Kind |
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102017219626.2 | Nov 2017 | DE | national |