DE102005019328A1 - Fuel injection valve for internal-combustion engine, has volume between front surface of valve closing section and front surface, and coating with non-stick effect for combustion residues provided at front surfaces that limit volume - Google Patents

Abstract

The valve has an excitable actuator operating a valve closing section (28) that forms a sealing seat with a valve seat surface (27) at a valve seat unit (26). Discharge openings (32) are designed downstream of the surface. A volume (30) lies between a front surface (52) of the section and a front surface (53). A coating (50) with non-stick effect for combustion residues is provided at the front surfaces that limit the volume.

Description

The The invention is based on a fuel injection valve after Genus of the main claim.

From the DE 199 51 014 A1 A fuel injection valve for fuel injection systems of internal combustion engines is already known which comprises a magnetic coil, a valve needle operatively connected to the solenoid and acted upon in a closing direction by a return spring for actuation of a valve closing body which forms a sealing seat together with a valve seat surface formed on a valve seat body, and ejection openings includes, which are formed downstream of the valve seat surface in the valve seat body. The valve seat body having at least one injection orifice has a coating at its downstream end face, at least in the mouth region of the injection orifice, which prevents coking in this region. The coating completely surrounds the mouth region of the at least one spray-discharge opening and also partially protrudes into the spray-discharge opening.

adversely on the fuel injection valve known from the above document is in particular that this coated, facing the combustion chamber End face region the fuel injector particularly high thermal loads is exposed and the quality the coating deteriorates in the long-term operation of the injection valve, wherein the desired Non-stick effect re Combustion residues completely can get lost. In consequence, by the deposition of Coking residues the Functioning of the Fuel injection valve severely limited and the emission behavior be worse.

Advantages of invention

The Fuel injection valve according to the invention with the characterizing features of the main claim has the Advantage that a particularly high and durable functioning of the fuel injection valve by avoiding coating or Deposit formation at the downstream End of the fuel injection valve is ensured.

The itself through the inventive measures resulting significant reduction in the risk of deposits in the Dead volume downstream of the Valve seat In addition to reducing the particles in this volume, it also offers Advantage that the tolerance requirements for dimensional accuracy the valve needle, the valve seat member and the enclosed Volume opposite known fuel injection valves are significantly loosened can. Finishing Processes the aforementioned components can be reduced or eliminated altogether. In addition, the degree of freedom increases Arrangement of the outlet openings in the valve seat member in an advantageous manner substantially.

According to the invention These positive aspects are achieved in that at least one of the volume limiting faces a coating as an anti-adhesion layer to prevent deposits applied in the dead volume in the interior of the fuel injection valve is.

By in the subclaims listed activities are advantageous developments and improvements of the main claim specified fuel injector possible.

drawing

Embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description. Show it 1 3 shows a schematic section through a first exemplary embodiment of a fuel injection valve designed according to the invention in an overall view, 2 a schematic section through the discharge-side part of a second embodiment of the fuel injection valve according to the invention, 3 an enlarged view of the seat and Abspritzbereichs as a section 2 . 4 a third embodiment in a representation according to 3 and 5 a fourth embodiment in a representation according to 3 ,

description the embodiments

That in the 1 For example, an electromagnetically operable valve in the form of an injector for fuel injection systems of spark-ignition internal combustion engines shown as one embodiment has one of a solenoid coil 1 at least partially surrounded, serving as the inner pole of a magnetic circuit, tubular, largely hollow cylindrical core 2 , The fuel injection valve is particularly suitable as a high-pressure injection valve for direct injection of fuel into a combustion chamber of an internal combustion engine. An example, stepped bobbin 3 made of plastic takes a winding of the solenoid 1 on and allows in conjunction with the core 2 and an annular, nonmagnetic, magnetic coil 1 partially surrounded intermediate part 4 with an L-shaped cross-section a particularly com compact and short design of the injector in the field of solenoid coil 1 ,

In the core 2 is a continuous longitudinal opening 7 provided, extending along a valve longitudinal axis 8th extends. The core 2 the magnetic circuit also serves as a fuel inlet nozzle, wherein the longitudinal opening 7 represents a fuel supply channel. With the core 2 above the magnetic coil 1 firmly connected is an outer metal (eg ferritic) housing part 14 , which closes the magnetic circuit as outer pole or outer guide element and the magnetic coil 1 completely surrounds at least in the circumferential direction. In the longitudinal opening 7 of the core 2 is a fuel filter on the inlet side 15 provided, which provides for the filtering out of such fuel components that could cause blockages or damage due to their size in the injector. The fuel filter 15 is z. B. by pressing in the core 2 fixed.

The core 2 forms with the housing part 14 the inlet end of the fuel injection valve, wherein the upper housing part 14 For example, seen in the axial direction downstream just about the solenoid 1 extends beyond. To the upper housing part 14 closes tightly and firmly a lower tubular housing part 18 on, the z. B. an axially movable valve member consisting of an anchor 19 and a rod-shaped valve needle 20 or an elongated valve seat carrier 21 encloses or receives. The two housing parts 14 and 18 are z. B. firmly connected to each other with a circumferential weld.

In the in 1 illustrated embodiment, the lower housing part 18 and the largely tubular valve seat carrier 21 firmly connected by screwing together; However, welding, soldering or flanging are also possible joining methods. The seal between the housing part 18 and the valve seat carrier 21 takes place for. B. by means of a sealing ring 22 , The valve seat carrier 21 has over its entire axial extent an inner passage opening 24 that are concentric with the valve longitudinal axis 8th runs.

With its lower end 25 , which also represents the downstream end of the entire fuel injection valve, surrounds the valve seat carrier 21 one in the passage opening 24 fitted disk-shaped valve seat element 26 with a downstream of the truncated cone tapered valve seat surface 27 , In the passage opening 24 is the z. B. rod-shaped, a substantially circular cross-section having valve needle 20 arranged at its downstream end a valve closing portion 28 having. This, for example, spherical or partially spherical or rounded or conically tapered valve closing portion 28 acts in a known manner with the valve seat member 26 provided valve seat surface 27 together. The axially movable valve member may, in addition to the illustrated embodiment with anchor 19 , Valve needle 20 and valve closing section 28 also be designed completely differently than axially movable valve closing body. Downstream of the valve seat surface 27 is in the valve seat element 26 at least one outlet opening 32 introduced for the fuel. Ideally, the fuel injector has as a multi-hole valve between two and thirty outlet openings 32 ,

The actuation of the injection valve takes place in a known manner electromagnetically. However, a piezoelectric actuator as an excitable actuator is also conceivable. Likewise, an operation via a controlled pressure-loaded piston is conceivable. For the axial movement of the valve needle 20 and thus to open against the spring force in the longitudinal opening 7 of the core 2 attached return spring 33 or closing of the injector serves the electromagnetic circuit with the solenoid 1 the core 2 , the housing parts 14 and 18 and the anchor 19 , The anchor 19 is with the valve closing section 28 opposite end of the valve needle 20 z. B. connected by a weld and on the core 2 aligned. To guide the valve needle 20 during its axial movement with the anchor 19 along the valve longitudinal axis 8th On the one hand, one serves in the valve seat carrier 21 at the anchor 19 facing the end provided guide opening 34 and on the other hand, an upstream of the valve seat member 26 arranged disc-shaped guide element 35 with a dimensionally accurate guide opening 55 , The anchor 19 is during its axial movement of the intermediate part 4 surround.

Between the guide element 35 and the valve seat member 26 Eg is another disk-shaped element, such as a swirl element 47 arranged so that the three elements 35 . 47 and 26 lie directly on each other and in the valve seat carrier 21 Find recording. The three disc-shaped elements 35 . 47 and 26 are connected firmly bonded together in an advantageous manner cohesively.

One in the longitudinal opening 7 of the core 2 inserted, pressed or screwed adjustment sleeve 38 used to adjust the spring preload over a centering 39 with its upstream side on the adjustment sleeve 38 adjacent return spring 33 , anchored to its opposite side 19 supported. In the anchor 19 are one or more bore-like flow channels 40 provided by the fuel from the longitudinal opening 7 in the core 2 out over downstream of the flow channels 40 trained connection channels 41 near the guide hole 34 in the valve seat carrier 21 into the passage opening 24 reach can.

The stroke of the valve needle 20 is due to the installation position of the valve seat element 26 specified. An end position of the valve needle 20 is with non-energized solenoid 1 by the installation of the valve closing section 28 on the valve seat surface 27 the valve seat member 26 set while the other end position of the valve needle 20 with energized solenoid 1 through the attachment of the anchor 19 at the downstream end of the core 2 results. The surfaces of the components in the latter stop area are, for example, chrome-plated.

The electrical contacting of the magnetic coil 1 and thus their excitement is via contact elements 43 that are still outside the bobbin 3 with a plastic coating 44 are provided. The plastic extrusion 44 can also have other components (eg housing parts 14 and 18 ) of the fuel injection valve. From the plastic extrusion 44 out runs an electrical connection cable 45 , via which the energization of the magnetic coil 1 he follows. The plastic extrusion 44 protrudes through the interrupted in this area upper housing part 14 ,

2 shows a downstream end portion of a second embodiment of a fuel injection valve. In this embodiment is on a swirl element 47 dispensed; the valve seat element 26 is directly with the guide element 35 eg firmly connected by welding. In addition, the valve seat element has 26 a circumferential flange 48 , the downstream end 25 of the valve seat carrier 21 engages below.

In 3 is the seat and Abspritzbereich as a cutout 2 shown again in a different scale in order to better illustrate the measures according to the invention. Between the downstream end face 52 the valve closing section 28 the valve needle 20 downstream of the valve seat surface 27 and the inner face 53 the valve seat member 26 , at the entrance levels of the outlet openings 32 lie is a volume called dead volume 30 included, which ideally should be kept as small as possible. Especially small distances between the valve needle 20 and the outlet openings 32 Ensure that harmful deposits on the volume 30 limiting faces 52 . 53 can be kept low. Such a very small distance between valve needle 20 and outlet openings 32 However, in mass production can only be implemented with great effort due to the very tight tolerances.

According to the invention, the fuel injection valve on at least one of the volume 30 limiting faces 52 . 53 a coating 50 as an anti-adhesion layer to prevent deposits in the dead volume. Which is due to the coating 50 resulting significant reduction in the risk of deposits in the volume 30 offers besides the reduction of the particles in the volume 30 the advantage that the tolerance requirements for the dimensional accuracy of the valve needle 20 , the valve seat member 26 and volume included 30 can be significantly relaxed compared to known fuel injection valves. Finishing processes of the aforementioned components can be reduced or eliminated altogether. In addition, the degree of freedom increases the arrangement of the outlet openings 32 in the valve seat element 26 advantageously substantially, as by the coating 50 the risk of clogging the outlet openings 32 is significantly reduced.

In known fuel injection valves, at high temperatures of the downstream end of the fuel injection valve in the interval between two injections, a vaporization of the fuel from the dead volume can take place. As a consequence, the volume called dead volume can become 30 fill in the compression phase with a combustible mixture, then in the subsequent combustion phase, the flame front beats into the volume 30 over and leaves in the volume 30 in the interior of the fuel injection valve combustion residues, which can lead to an inadmissible flow reduction or complete blockage of the fuel injection valve.

To counteract this is according to 3 the inner face 53 the valve seat member 26 , at the entrance levels of the outlet openings 32 lie, with a coating on combustion residues avoiding coating 50 Mistake. Instead of the coated face 53 the valve seat member 26 may also be on the valve seat member 26 fastened (not shown) spray perforated disk may be provided, whose volume 30 limiting inner face then the coating 50 having. The coating 50 is constructed in such a way that the particles of the deposits which want to form can build up a greatly reduced adhesive force. Therefore, especially suitable for the coating 50 so-called FAS (fluoroalkyl silicates). Other non-stick layers, eg layers based on the principle of nanotechnology, can also be used. The coating is applied 50 for example by means of spray painting. The coating 50 For example, before punching or eroding the outlet openings 32 on the valve seat element 26 and grinding the valve seat surface 27 applied. A masking of these functional surfaces on the valve seat member 26 can be omitted in this processing order.

In 4 an embodiment is shown in which in addition to the coating 50 on the inner face 53 the valve seat member 26 also the walls of the outlet openings 32 and the outer, projecting to the combustion chamber end face of the valve seat member 26 with a coating 50 ' are provided. The coating 50 . 50 ' can be applied in such a way that the valve seat element 26 is dipped after completion of the mechanical processing steps. However, this procedure requires the valve seat surface 27 the valve seat member 26 be masked. Depending on the type and quality of the coating 50 . 50 ' It can happen that the coating 50 ' on the outer end face of the valve seat member 26 Due to the high thermal loads in continuous operation their non-stick properties partially loses while in the range of volume 30 in which the temperature fluctuations are much lower, the non-stick effect of the coating 50 exists over the long life of the fuel injection valve.

5 shows a fourth embodiment in a representation according to 3 , Here is the downstream end face 52 the valve closing section 28 the valve needle 20 downstream of the valve seat surface 27 with the coating 50 Mistake. In fact, at very high thermal loads on the fuel injection valves, the ends of the valve needles also tend 20 to an undesirable deposit formation. Advantageously, therefore, all the volume 30 limiting end faces, so both the inner end face 53 the valve seat member 26 as well as the downstream end face 52 the valve closing section 28 the valve needle 20 downstream of the valve seat surface 27 with the coating 50 coated.

The invention is not limited to the illustrated embodiments and eg for arbitrarily arranged outlet openings 32 as well as for any constructions of inwardly opening multi-hole fuel injection valves applicable. In particular, all features of the invention can be combined as desired.

Claims (10)

Fuel injection valve for fuel injection systems of internal combustion engines with an excitable actuator ( 1 ) for actuating a valve closing section ( 28 ), which together with one on a valve seat element ( 26 ) formed valve seat surface ( 27 ) forms a sealing seat, with at least one outlet opening ( 32 ) located downstream of the valve seat surface ( 27 ) and with a volume ( 30 ) between the downstream end face ( 52 ) of the valve closing section ( 28 ) and the face ( 53 ), in which the entry level of the at least one outlet opening ( 32 ), characterized in that at least one of the volumes ( 30 ) limiting end faces ( 52 . 53 ) a coating ( 50 ) with non-sticking effect for combustion residues. Fuel injection valve according to claim 1, characterized in that the coating ( 50 ) on the inner end face ( 53 ) of the valve seat element ( 26 ) leading to the volume ( 30 ) is directed towards, is provided. Fuel injection valve according to claim 1, characterized in that the coating ( 50 ) at the inner, to the volume ( 30 ) directed end face ( 53 ) of a spray-orifice plate attached to the valve seat element ( 26 ), is provided. Fuel injection valve according to one of claims 1 to 3, characterized in that the coating ( 50 ) at the downstream end face ( 52 ) of the valve closing section ( 28 ) downstream of the valve seat surface ( 27 ) is provided. Fuel injection valve according to one of claims 2 to 4, characterized in that in addition to the coating ( 50 ) at the volume ( 30 ) a coating ( 50 ' ) on the wall of the at least one outlet opening ( 32 ) and / or on the outer end face of the valve seat element ( 26 ) is provided. Fuel injection valve according to one of the preceding claims, characterized in that the coating ( 50 . 50 ' ) is constructed with fluoroalkyl silicates. Fuel injection valve according to one of the preceding claims, characterized in that the coating ( 50 . 50 ' ) is based on the principle of nanotechnology. Fuel injection valve according to one of the preceding claims, characterized in that the coating ( 50 . 50 ' ) can be applied by spray painting or by dipping. Fuel injection valve according to one of the preceding claims, characterized in that the valve closing section ( 28 ) Part of an axially movable valve needle ( 20 ). Fuel injection valve according to one of the preceding claims, characterized in that between two and thirty outlet openings ( 32 ) in the valve seat element ( 26 ) or the spray perforated disc are formed.