The present invention relates to a fuel injector.
From German Patent Document No. 198 16 315 A1, for instance, a fuel injector is discussed for the direct injection of fuel into the combustion chamber of an internal combustion engine, in particular. The fuel injector includes an armature cooperating with a solenoid coil, and a valve needle which is joined to the armature by force-locking and at which a valve-closure member is provided which forms a sealing seat together with a valve-seat surface. The valve needle has a first limit stop for the armature, which is able to move on the valve needle, the armature being additionally acted upon by a second restoring spring. Moreover, a stationary second limit stop for the armature is provided. The second restoring spring acts upon the armature counter to the lift direction, and in the non-excited state of the solenoid coil holds the armature against the second stop in such a way that the armature and the first stop formed on the valve needle are set apart by a predefined distance.
A particular disadvantage of the fuel injector of German Patent Document No. 198 16 315 A1 may be that, although a prestroke principle is realized which allows an improvement in the valve dynamics during opening of the fuel injector, armature bounce, which induces additional, undesired opening lifts of the valve needle, occurs during closing of the fuel injector when the armature returns to the neutral position.
In contrast, the fuel injector according to the exemplary embodiment of the present invention has the advantage that the armature is swingingly supported on the valve needle by a correspondingly disposed spring, and a prestroke may thus take place during the opening operation, but the armature is able to swing freely with respect to the valve needle during closing, so that additional opening lifts of the valve needle are able to be prevented.
Furthermore, it is advantageous that the spring is embodied as a simple helical spring und is slipped onto the valve needle.
The spring is advantageously positioned between a sleeve and a flange that is frictionally connected to the valve needle. The sleeve encapsulates the spring and the flange.
Another advantage is that the sleeve is able to be produced in an uncomplicated manner and be installed in the fuel injector on the armature.
Moreover, it is advantageous that a stop ring mounted to the housing is provided, which is used as lower armature stop.
An exemplary embodiment of the present invention is described in the following by way of example. In this context, identical components have been provided with matching reference numerals in all of the figures.
An exemplary embodiment of a fuel injector 1 according to the present invention, shown in
Fuel injector 1 is made up of a nozzle body 2 in which a valve needle 3 is positioned. Valve needle 3 is mechanically linked to a valve-closure member 4, which cooperates with a valve-seat surface 6 disposed on a valve-seat member 5 to form a sealing seat. Fuel injector 1 in the exemplary embodiment is an inwardly opening fuel injector, which is provided with a spray orifice 7. A seal 8 seals nozzle body 2 against an outer pole 9 of a solenoid coil 10. Solenoid coil 10 is encapsulated in a coil housing 11 and wound on a coil brace 12 which rests against an inner pole 13 of solenoid coil 10. Inner pole 13 and outer pole 9 are separated from one another by a constriction 26 and interconnected by a non-ferromagnetic connecting part 29. Solenoid coil 10 is energized via a line 19 by an electric current, which may be supplied via an electrical plug contact 17. Plug contact 17 is enclosed by a plastic coat 18, which is extrudable onto inner pole 13.
An armature 20 is positioned on valve needle 3 in a manner allowing movement. Armature 20 is set apart from a first flange 21 joined to valve needle 3 with force-locking by a welding seam 22, by a prestroke gap 27. Braced on first flange 21 is a restoring spring 23, which is prestressed by a sleeve 24 in the present design of fuel injector 1. A working air gap 33 is formed between a lower stop face of inner pole 13 and armature 20.
Fuel channels 30 and 32 run in armature 20 and along a guide element 36. The fuel is supplied via a central fuel supply 16 and filtered by a filter element 25. Fuel injector 1 is sealed against a fuel distributor (not shown further) by a seal 28 and against a cylinder head (not shown further) by another seal 37.
On the discharge-side of armature 20 is a second flange 34, which is likewise joined to valve needle 3 by force-locking via a welding seam 35.
According to the exemplary embodiment of the present invention, a cup-shaped sleeve 14 is provided, which is situated downstream of armature 20 and permanently connected thereto, in which a spring 31 is situated which is braced between sleeve 14 and second flange 34. A stop ring 38, mounted to the housing, is used as downstream armature stop. The measures according to the exemplary embodiment of the present invention are elucidated in greater detail in the following, with reference to
In the neutral position of fuel injector 1, return spring 23 acts upon valve needle 3 counter to its lift direction in such a way that valve-closure member 4 is retained in sealing contact against valve seat surface 6. When excited, solenoid coil 10 generates a magnetic field which moves armature 20 in the lift direction, initially counter to the spring force of spring 31, the prestroke, i.e., the free travel of the armature, being defined by a prestroke gap 27 occurring in the neutral position between first flange 21 and armature 20. Following the prestroke travel, armature 20 is pulled to inner pole 13 of solenoid coil 10, counter to the force of restoring spring 23; armature 20 takes along first flange 21, which is welded to valve needle 3, thereby taking it along in the lift direction as well. Valve-closure member 4, which is connected to valve needle 3, lifts off from valve seat surface 6, and the fuel carried via fuel channels 30 and 32 is spray-discharged through spray-discharge orifice 7.
If the coil current is interrupted, following sufficient decay of the magnetic field, armature 20 falls away from inner pole 13 due to the pressure of restoring spring 23, whereupon first flange 21, being joined to valve needle 3, moves in a direction counter to the lift direction. Valve needle 3 is thereby moved in the same direction, causing valve-closure member 4 to set down on valve seat surface 6 and fuel injector 1 to be closed. Sleeve 14 simultaneously sets down on stop ring 38 mounted to the housing.
Due to second spring 31, which is disposed between second flange 34 and a base part 40 of sleeve 14 as can be gathered from
Sleeve 14 is fixedly connected to armature 20 via a collar 39, for instance by welding, soldering or bonding. Stop ring 38 is mounted to the housing by pressing it in or welding it to outer pole 9 of fuel injector 1, for example.
The present invention is not restricted to the exemplary embodiment shown, but also applicable to other forms of fuel injectors 1.
Number | Date | Country | Kind |
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10 2004 024 533 | May 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/050743 | 2/21/2005 | WO | 00 | 5/12/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2005/113973 | 12/1/2005 | WO | A |
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