EP1262655B1 - Fuel injection valve - Google Patents

Description

State of the art

The invention is based on a fuel injection valve according to the preamble of the main claim.

It is already known from US 4,766,405 Fuel injection valve known, the one with a Valve needle connected valve closing body, with a valve seat surface formed on a valve seat body a sealing seat cooperates, has. to electromagnetic actuation of the Fuel injection valve is provided a solenoid, which interacts with an anchor, with the valve needle positively connected. To the anchor and the Valve needle is an additional mass cylindrical provided, which has an elastomeric layer with the anchor connected is. The anchor has a maximum lift limiting stop surface, which with a Counter stop surface cooperates.

From US 4,766,405 is another embodiment of a Fuel injection valve known, in which for damping and Debouncing around the anchor and the valve needle another cylindrical mass is provided by two Elastomer rings movably clamped in position and is held. Upon impact of the valve needle on the Seating seat can become this second mass relative to anchor and Move valve needle and bouncing the valve needle prevent.

The disadvantage here is the impulse of the valve needle resulting noise when the anchor hits with his Stop surface on the counter stop surface. The described constructive design serves debouncing when placing the valve needle on the valve seat surface. Likewise, too the placement of the anchor with its stop surface on the Counter-attack surface entprellt. The formation of a Sound pulses and its transmission in particular as Structure-borne noise is not prevented by debouncing.

From DE 198 16 315 is a fuel injection valve for Fuel injection systems of internal combustion engines known in particular for the direct injection of fuel into a combustion chamber of the internal combustion engine, the one through a Magnetic coil in a stroke direction against a first Return spring acted anchor and one with a Valve-closing body related valve needle having. The valve needle has a first stop for the anchor moving on it, being the anchor additionally acted upon by a second return spring is. Further, a stationary second stop for the Anchor provided. The second return spring acts on the Anchor against the stroke direction and stops in one Rest position with non-energized magnetic coil the anchor on the second stop so in Appendix, that the anchor of the s.der Valve needle trained first stop around a spaced predetermined distance.

Also, this known embodiment of a fuel injection valve with one acting on the anchor second return spring does not prevent one Noise when hitting the anchor on a Stop for stroke limitation. The known design is used only for Entprellung the placement of the valve needle on the Valve closing body.

Advantages of the invention

The fuel injection valve according to the invention with the characterizing features of the main claim has In contrast, the advantage that during the stroke of the valve needle, before the anchor with its anchor stop the Counter-attack surface reached, the elastic Damping element is compressed and through this Delay no pulse peak occurs and the Noise is minimized. The invention Fuel injector is also inexpensive and easy to manufacture, since only a recess in one of the Stop surfaces must be provided.

By the measures listed in the dependent claims are advantageous developments of the main claim specified fuel injector possible.

Preferably, the damping element is in the Counter stop surface arranged.

The elastic damping element can then by jamming be fixed because this surface on any moving component is formed.

In a favorable embodiment, the recess is a circular, concentric with the valve needle Groove having a radius which is approximately the center between the smallest circumferential radius and the largest circumferential radius the counter stop surface corresponds.

Advantageously, the recess can be manufactured inexpensively, because the groove is concentric with a symmetry axis of the anchor lies, in which the valve needle is arranged. As typical Turned part becomes the anchor during its manufacture around this Symmetry axis rotatably clamped and an additional groove Can be installed with little effort. The choice of Radius of the circular groove approximately in the middle of the free area the counter stop surface with respect to a radial cut gives a favorable force when hitting the Damping element and lowest possible vibrations and thus Sound DEVELOPMENT.

drawings

Fig. 1

einen schematischen Schnitt durch ein erfindungsgemäßes Ausführungsbeispiel eines Brennstoffeinspritzventils,

Fig. 2

einen Detailausschnitt eines erfindungsgemäßen Brennstoffeinspritzventils entsprechend dem Bereich II in der Fig. 1 und

Fig. 3

einen Detailausschnitt eines weiteren erfindungsgemäßen Brennstoffeinspritzventils entsprechend dem Bereich II in der Fig. 1.

Embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Show it:

Fig. 1

a schematic section through an inventive embodiment of a fuel injection valve,

Fig. 2

a detail of a fuel injection valve according to the invention according to the area II in Fig. 1 and

Fig. 3

a detail of another fuel injection valve according to the invention in accordance with the area II in FIG. 1.

Description of the embodiments

First, in Fig. 1, a first invention Execution of a fuel injection valve 1 in one Overview representation are described. For the better Understanding the structural arrangement of the invention in Fuel injector 1, Fig. 1 apart from the measures according to the invention in terms of his Essential components known fuel injection valve. 1 represents.

The fuel injection valve 1 is in the form of a Fuel injection valve 1 for fuel injection systems of mixture-compacting, externally ignited Internal combustion engine running. It is particularly suitable for directly injecting fuel into one illustrated combustion chamber of an internal combustion engine.

The fuel injection valve 1 consists of a Nozzle body 2, in which a valve needle 3 is arranged. The valve needle 3 is connected to a valve closing body 4 in Operative connection, with a on a valve seat body. 5 arranged valve seat surface 6 to a sealing seat interacts. When the fuel injection valve 1 acts it is in the exemplary embodiment to an inwardly opening Fuel injection valve 1, which via a Spray opening 7 has. The nozzle body 2 is through a Seal 8 against an outer pole 9 of a magnetic coil 10th sealed. The magnetic coil 10 is in a coil housing 11 encapsulated and wound on a bobbin 12, which rests against an inner pole 13 of the magnetic coil 10. Of the Inner pole 13 and the outer pole 9 are through a constriction 26th separated from each other and not by one another ferromagnetic connecting member 29 connected. The Solenoid 10 is connected via a line 19 from a via an electrical plug-in contact 17 can be supplied electrical Electricity excited. The plug contact 17 is of a Plastic casing 18 surrounded, the inner pole 13th can be injected.

The valve needle 3 is in a valve needle guide fourteenth guided, which is designed disk-shaped. to Stroke adjustment is a paired shim 15. An the other side of the dial 15 is the Anchor 20. This is about a first flange 21st non-positively connected to the valve needle 3 in conjunction, which by a weld 22 with the first flange 21 connected is. On the first flange 21 is supported Return spring 23 from which in the present design of Fuel injection valve 1 by a sleeve 24 Bias is brought. In the valve needle guide 14, in Anchor 20 and the valve seat body 5 extend Fuel channels 30a to 30c. The fuel gets over one supplied central fuel supply 16 and by a Filter element 25 filtered. The fuel injection valve 1 is by a seal 28 against a not further sealed illustrated fuel line.

On the discharge side of the armature 20 is a annular damping element 32, which consists of a Elastomer material consists, arranged. It lies on one second flange 31, which via a weld 33rd non-positively connected to the valve needle 3.

The armature 20 has on its side facing away from the spray side Side an anchor stop surface 34, which with a Counter stop surface 35 cooperates and the stroke of Valve needle 3 limited. In an annular groove 36 of Counter stop surface 35 is an O-ring 37 as Inserted damping element.

In the idle state of the fuel injection valve 1 is the Anchor 20 of the return spring 23 against its Lifting direction acted upon so that the valve closing body. 4 is held in sealing engagement with the valve seat 6. at Excitation of the magnetic coil 10 builds this a magnetic field, which the armature 20 against the spring force of Return spring 23 moves in the stroke direction, wherein the stroke through one in the rest position between the inner pole 12 and the Anchor 20 working gap 27 is given. Of the Anchor 20 takes the first flange 21, which with the Valve needle 3 is welded, also in the stroke direction with. The standing with the valve needle 3 in connection Valve closing body 4 lifts off from the valve seat surface 6, and the fuel is passed through the ejection opening 7 hosed.

If the coil current is turned off, the armature 20 drops sufficient reduction of the magnetic field by the pressure of the Return spring 23 from the inner pole 13, causing the with the valve needle 3 in communication first flange 21st moved against the stroke direction. The valve needle 3 is thereby moved in the same direction, causing the Valve closing body 4 touches on the valve seat surface 6 and the fuel injection valve 1 is closed.

FIG. 2 shows an enlarged sectional view of an enlarged view of the region II in FIG. 1. Shown is a part of the valve needle 3 which passes through the weld 22 at this welded first flange 21 and the armature 20 with the fuel channel 30a extending therein Anchor stop surface 34. The anchor stop surface 34 cooperates with the counter stop surface 35 to limit the stroke of the valve needle 3 and the armature 20. By means of the second flange 31 connected to the weld seam 33 with the valve needle 3, the armature 20 between the first flange 21 and the second flange 31 is held via the damping element 32. According to the invention, the embodiment shown in FIG. 2 has an annular groove 36 in the counterstop surface 35, the radius r of which corresponds approximately to the middle between the smallest circumferential radius r _min and the largest circumferential radius r _{max of} the counterstop surface 35. In the annular groove 36, an O-ring 37 is inserted, which projects beyond a supernatant u on the counter-stop surface 35.

Will the armature 20 and the entrained by the armature 20 Valve needle 3 moves in the stroke direction, so comes the armature 20th with its anchor stop surface 34 at a distance u in front of the Stop the anchor stop surface 34 to the Counter stop surface 35 with the O-ring 37 in contact. Under Deformation of the O-ring 37, the armature 20 is decelerated until the anchor stop surface 34 and the counter stop surface 35th lie together. There is no impulse peak and the associated noise during the impact of the Surfaces on each other. By choosing the radius r is a possible free-winding length on the surface of the Anchor stop surface 34 and the counter stop surface 35th minimized. This also makes the sound development favorable affected.

When the coil current is turned off, the in the Ring groove 36 completely depressed O-ring 37 its Deformation energy again partial and accelerates the Anchor 20 in addition. The closing time of Fuel injection valve 1 is thereby shortened. Further is favorable in the present embodiment that the O-ring 37 fixed solely by jamming in the annular groove 36 can be because the counter-attack surface 35 at a dormant Component is formed.

Fig. 3 shows in an excerpted sectional view Another embodiment of the invention Fuel injection valve 1 corresponding to the area II of Fig. 1. The structure corresponds to that in FIG. 2 shown with the valve needle 3, by the Weld 22 on this welded first flange 21, the armature 20, the fuel passage 30a running therein, the anchor stop surface 34 and the counter stop surface 35th By the with the weld 33 with the valve needle. 3 connected second flange 31 is over the Damping element 32 of the armature 20 between the first flange 21st and second flange 31 held. Deviating from that in FIG. 2 illustrated embodiment is in the annular groove 36 in the counter-abutment surface 35 a four-channel ring 38 is used, the one about a supernatant u on the counter stop surface 35th survives.

By the described embodiment, a stronger decelerating force can be achieved.

The invention is not limited to those shown Embodiments limited and z. B. also for outward opening fuel injectors 1 or others Anchor shapes suitable, as far as this a flat stop exhibit.

Claims (9)

1. Fuel injection valve (1), in particular injection valve for fuel injection systems for internal combustion engines, with a valve needle (3) which cooperates with a valve-seat surface (6) to form a sealing seat, and with an armature (20) which acts on the valve needle (3) and has, as a first abutment face, an armature abutment face (34) facing away from the valve seat, an abutment counterface (35) serving as a second abutment face which cooperates with the armature abutment face (34), characterized in that the armature abutment face (34) and/or the abutment counterface (35) has, in a recess (36), an elastic damping element (37, 38) which projects beyond the armature abutment face (34) or abutment counterface (35).
2. Fuel injection valve according to Claim 1, characterized in that the damping element (37, 38) is arranged in the abutment counterface (35).
3. Fuel injection valve according to Claim 1 or 2, characterized in that the recess is a circular groove (36).
4. Fuel injection valve according to Claim 3, characterized in that the circular groove (36) is arranged concentrically to the valve needle (3).
5. Fuel injection valve according to Claim 4, characterized in that the circular groove (36) has a radius (r) which corresponds approximately to the middle between the smallest circumferential radius (r_min) and the largest circumferential radius (r_max) of the abutment counterface (35).
6. Fuel injection valve according to Claim 4 or 5, characterized in that the damping element is a square ring (38) made from an elastomer.
7. Fuel injection valve according to Claim 4 or 5, characterized in that the damping element is an O-ring (37) made from an elastomer.
8. Fuel injection valve according to Claim 6 or 7, characterized in that the modulus of elasticity of the damping element (37, 38) is selected such that, with the armature (20) pulled up, the damping element (37, 38) is pressed into the groove (36) and the armature abutment face (34) and the abutment counterface (35) bear against one another.
9. Fuel injection valve according to Claim 1 or 2, characterized in that the elastic damping element (37, 38) is a spring element.

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