EP1423602A1 - Fuel injection system - Google Patents

Abstract

The invention relates to a fuel injection system (1) for an internal combustion engine. Said system comprises a fuel injection valve (2) for injecting fuel into a combustion chamber, said valve being inserted in a receiving borehole (3) of a cylinder head (4) of the internal combustion engine and being sealed from the combustion chamber by means of a seal (13). A flame-protective shield (18; 20) is arranged in the receiving borehole (3) on the injection side of the fuel injection valve (2), said shield shielding injection openings (21) of the fuel injection valve (2) from the combustion chamber of the internal combustion engine. The flame-protective shield (18; 20) is arranged on an injection-side end (23) of the fuel injection valve (2) or on a wall (17) of the receiving borehole (3) of the cylinder head (4) on the injection side of the fuel injection valve (2).

Description

 Fuel injection system

State of the art

The invention relates to a fuel injection system according to the preamble of the main claim.

DE 198 04 463 AI describes a fuel injection system for a mixture-compressing, spark-ignited

Internal combustion engine known which one

Fuel injection valve comprises, the fuel f in a combustion chamber formed by a piston / cylinder structure, and is provided with a spark plug projecting into the combustion chamber. The fuel injector is arranged with at least one row distributed over the circumference of the fuel injector

Provide injection holes. Through a targeted injection of fuel through the injection holes, a jet-guided combustion process is formed by forming a

Mixture cloud realized with at least one beam.

A disadvantage of the above known from the Druckschrif t Brennstof f einsprit zSystem is especially the carbonization of ^{• 'Absprit} fnungen zόf of

Fuel injection valve, which thereby ^' clog and the flow through the fuel injector is not permitted greatly decrease. This leads to malfunction of the internal combustion engine.

Advantages of the invention

The fuel injection system according to the invention with the characterizing features of the main claim has the advantage that a flame protection shield arranged downstream of the injection openings of the ^' fuel injection valve reduces the temperature of the flame front of the burning mixture cloud in the area of the spray openings so much that no combustion residues can precipitate in the area of the spray openings , whereby an overgrowth of the spray openings through coking residues is avoided.

The flame retardant shield can either be attached to the injection-side end of the fuel injection valve or to the wall of the receiving bore in the cylinder head in which the fuel injection valve is mounted.

Advantageous developments of the fuel injection system specified in the main claim are possible through the measures listed in the subclaims.

It is particularly advantageous that the Fl mmschutzschild is designed as a cone or truncated cone, whereby a simple and inexpensive manufacture is possible.

The cone or partial cone can advantageously either have a homogeneous inclination with respect to the wall of the receiving bore or one or more inclination changes, as a result of which the height of the flame protection shield and thus the installation depth of the fuel injector can be adapted to the requirements in a simple manner.

Furthermore, an advantageous embodiment of the flame protection shield in the form of a partial sphere is possible, the Radius determines the installation depth of the fuel injector.

The flame retardant shield can advantageously be designed in the form of partial shields which extend over a freely selectable angular range, the number of partial shields being matchable to the number of spray openings, the spray angle or the opening angle of the mixture cloud.

It is particularly advantageous that a variable

Elevation of the flame protection shield over the surface of the

The protective function of the flame protection shield can be regulated as desired.

drawing

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 shows a schematic section through a general

Presentation . a fuel injection system, which is suitable for performing the measures according to the invention, in an overall view;

2A shows a schematic section through the spray-side part of the fuel injection system shown in FIG. 1 in area II in FIG. 1;

Fig. 2B the spray-side part of the fuel injection system shown in Fig. 1 with a

Fuel injection valve in an installation position adapted to the measures according to the invention in the same representation as FIG. 2A;

3A-C embodiments of a erf in düng s designed according to the flame retardant shield, each on an injection-side end of the fuel injector is attached;

4A-C show exemplary embodiments of a flame protection shield designed according to the invention, which is in each case attached to a wall of the receiving bore of the cylinder head adjacent to the injection-side end of the fuel injection valve;

Fig. 5 is a schematic plan view of the spray-side part of the

Fuel injection valve against the spray direction; and

Fig. 6 is a schematic view of the downstream end of the fuel injector with an embodiment of an additional shield or an extension of the flame protection shield.

Description of the embodiments

1 shows a schematic and simplified view of a fuel injection system -1, which comprises a fuel injection valve 2, which is introduced into a receiving bore 3 of a cylinder head 4 of an internal combustion engine.

_A. Fuel injection valve 2 is designed in the form of a direct injection fuel injection valve 2, which can be used for the direct injection of fuel into a combustion chamber of a mixture-compressing, spark-ignition internal combustion engine (not shown). The fuel injection valve 2 has a plug-in connection • to a fuel distributor line 6 at an inlet-end 5 that is sealed by a seal 7 between the _. Fuel distributor line 6 and a feed pipe connector 8 of the fuel injector 2 is sealed. The fuel injector 2 has Via an electrical connection 9 for the electrical contact ation for actuating the fuel injection valve 2. The fuel injection valve 2 is provided at least in its part projecting beyond the cylinder head 4 with a plastic coating 10 which also surrounds the electrical connection 8.

The fuel injector 2 is by measures not shown, such as. B. a clamp, fixed in the ^' cylinder head 4 and secured against rotation. An elastomer ring 11 for centering and mounting the fuel injection valve 2 is provided in the receiving bore 3. On a nozzle body 12 of the fuel injection valve 2, a sealing ring 13 is provided, • ^'which seals the fuel injection valve 2 against the cylinder head 4 of the internal combustion engine. In a valve seat body 14 of the fuel injection valve 2, at least one spray opening, not visible in FIG. 1, is formed, through which the fuel is sprayed into the combustion chamber.

The fuel injector 2, as can also be seen in the enlarged illustration in FIG. 2A, is usually inserted into the receiving bore 3 of the cylinder head 4 in such a way that an end 15 of the fuel injector 2 on the injection side is flush with a surface 16 of the cylinder head 4 facing the combustion chamber or even towered over them. This is disadvantageous in relation to the task, namely the reduction in the tendency of the fuel injector 2 to carbonize, so that to apply the measures according to the invention, the fuel injector 2 is first mounted in the receiving bore 3 of the cylinder head 4 in accordance with FIG 15 of the fuel injection valve 2 is arranged recessed relative to the surface 16 of the cylinder head 4 facing the combustion chamber. The installation depth of the fuel injection valve 2 is dependent on the opening angle α of the cone jet sprayed by the fuel injection valve 2. The fuel injector 2 must be in the Receiving hole 3 may be used that a wall 17 of

Location hole 3 is not wetted by the fuel.

With this arrangement, a first improvement in the tendency to coke can be achieved, since the spray openings are shielded from the fuel flow prevailing in the combustion chamber by the recessed arrangement of the fuel injection valve 2 in the receiving bore 3.

According to the invention, the fuel injection system 1 has one to further protect the spray openings from coking

Flame protection shield 18, which either on the fuel injector 2, as shown in FIGS. 3A to 3C

, 4A to 4C -5, can be arranged on the wall 17 of the receiving bore 3 of the cylinder head 4 on the downstream side of the valve seat body 14.

Due to the arrangement of the flame protection shield 18 on the downstream side _. Jets can coke the jets. be reduced. Since the diameter of the spray openings is typically approx. 100 μm, there is a risk that the spray openings become blocked by coking over time and _. thus the flow rate is impermissibly restricted 5, relatively large. This is due in particular to the high temperatures when the mixture cloud injected into the combustion chamber is ignited, since this causes components of the fuel to settle at the tip of the fuel injector 2. By attaching the flame protection shield 18, the surface temperature in the outlet region of the spray openings can be reduced to such an extent that the spray openings cannot become overgrown due to coking residues. The flame protection shield 18 thereby prevents the flame front from spreading in the area between the flame protection shield 18 and the spray-side end. the fuel injector 2.

3A to 3C show the section designated III in FIG. 2B with different ones Embodiments of the flame protection shield 18 according to the invention when formed on the fuel injection valve 2.

FIG. 3A shows a simple shape, which is conical or frustoconical in shape and extends in the spray direction from the tip of the fuel suction injector 2 m in the direction of the combustion chamber. The inclination β of the conical or truncated cone-shaped flame protection shield 18 relative to the wall 17 of the receiving bore 3 of the cylinder head can be between 0 ° and 90 °. For better shielding, the flame protection shield 18 preferably projects beyond the surface 16 of the cylinder head 4 facing the combustion chamber by a certain amount, which is dependent on the height of the cone projected onto the wall 17 or the angle of inclination β.

3B shows a further possible form of the flame protection shield 18, which allows a greater installation depth of the fuel injection valve 2 in the cylinder head 4 with the same protective effect. Here, the conical or frustoconical flame shield 18 is first at a shoulder 19 at a first angle ßj _. and in the further course m an area 22 adjoining the extension 19 is inclined at a second angle β ₂ with respect to the wall 17 of the receiving bore 3. The second angle ß ₂ is larger or the same size as the first angle ßi, the size of ß ₂ between 0 ° and 180 ° and the size of ß] _ between 0 ° and 90 °. The number of changes in inclination can also be two or more, so that several differently inclined regions adjoin one another.

3C shows a third embodiment of the flame protection shield 18 according to the invention, the shape of a partial sphere having been chosen here, the radius R of which determines the height of the flame protection shield 18 and thus the installation depth of the fuel injection valve 2 in the cylinder head 4. Analogous to that in. 3A to 3C illustrated embodiments, in which the flame shield on the fuel injector 2, for example on the valve seat body 14, is formed, as shown schematically in FIGS. 4A to 4C, similar shapes on the wall 17 of the receiving bore 3 of the cylinder head 4 are attached downstream of the fuel injector 2. For this purpose, the conical, truncated cone or partially spherical flame protection shield 18 is fixed in a suitable manner on the wall 17 and, depending on the requirements for the installation depth of the fuel injection valve 2, projects beyond the surface 16 of the cylinder head 4 facing the combustion chamber.

In FIG. 4A, the flame protection shield 18 is attached in the same position relative to the surface 16 of the cylinder head 4 facing the combustion chamber as in the embodiment shown in FIG. 3A, while the extension 19 of the flame protection shield 18 shown in FIG. 4B is in the direction of the mouth of the ^' receiving bore 3 is shifted into the combustion chamber. The approach 19 of the flame protection shield 18 can be formed in particular at the transition of the wall 17 of the receiving bore 3 into the surface 16 of the cylinder head 4. As a result, the inclination angles β _x and β _{2 can take up} a larger angular range than in the exemplary embodiment shown in FIG. 3B. The size of ß can be between -90 ° and 270 ° and the size of ß ^ _. be between -90 ° and 90 °.

To simplify assembly and to shield the tip of the fuel injection valve 2 from the mixture flow in the combustion chamber in a targeted manner, the above-described embodiments of flame protection shields 18 designed according to the invention can also be in the form of partial shields 20, as shown in FIG. 5.

5 shows an example of a fuel injection system _. 1 with one

Fuel injector 2, which is six on a circle arranged spray openings 21, which are shielded by two partial shields 20, which occupy an angular range of q ^ or φ ₂ , which need not necessarily be the same size. The number of partial shields 20 is freely selectable and can be matched, for example, to the number of spray openings 21 or the geometry of the mixture cloud injected into the combustion chamber. The angular extent of n partial shields 20 is 0 ° <φ _n <360 °. For φ = 360 °, the partial shield 20 ^' merges into the flame protection shield 18, which has already been described in FIGS. 3A to 3C and 4A to 4C.

Fig. 6 is a further measure to improve the protective function displays of the flame shield 18, 20. Here, the flame shield 18, provided with an additional shield 24 20 ^'which is disposed radially inwardly into the flame shield 18, 20 and extends up to the outflow-side end face 15 of the valve seat body 14 extends. The hollow-conical structure of the resulting overall shield 18, 20, 24 enables a flow-dynamically improved shielding of the spray openings 21 of the fuel injector 1.

A similar arrangement can also be produced in that the flame-retardant shield 18, 20 has an extension 25 formed in one piece with it in the axial direction, which is bent radially inward and also extends to the downstream end face 15 of the valve seat body 14.

The invention is not limited to the exemplary embodiments shown and can be used for any forms of flame protection shields 18, which can be fixed in any way on the wall 17 of the receiving bore 3 or on the spray-side end of the fuel injection valve 2, and for any construction of fuel injection valves 1.

Claims

Expectations

1. Fuel injection system (1) for an internal combustion engine with a fuel injection valve (2) for injecting fuel into a combustion chamber, which is inserted in a receiving bore (3) of a cylinder head (4) of the internal combustion engine and sealed against the combustion chamber by a seal (13) , A flame protection shield (.18; 20) is arranged on the spray side of the fuel injection valve (2) in the receiving bore (3), which shields spray openings (21) of the fuel injection valve (2) against the combustion chamber of the internal combustion engine, characterized in that. the flame protection shield (18; 20) is arranged on an injection-side end (23) of the fuel injection valve (2) or on a wall (17) of the receiving bore (3) of the cylinder head (4) on the injection side of the fuel injection valve (2).

2. Fuel injection system according to claim 1, characterized in that the flame protection shield (18; 20) is in the form of a cone or truncated cone.

3. Fuel injection system according to claim 2, characterized in that that an angle of inclination ß of the conical or frustoconical flame protection shield (18; 20) is between -0 ° and 90 °.

4. Fuel injection system according to claim 1 or 2, characterized in that the flame protection shield (18; 20) is designed in the form of a multi-stage cone or truncated cone.

5. Fuel injection system according to claim 4, characterized in that. that the number of stages of the conical or frustoconical flame protection shield (18; 20) is two.

6. Fuel injection system according to claim 4 or 5, characterized in that a first inclination angle ß] _, which is formed between a shoulder (19) of the flame protection shield (18; 20) and the wall (17) of the receiving bore (3), is smaller as a second angle of inclination β ₂ between an area (22) of the flame protection shield (18; 20) adjoining the extension (19) and the wall (17).

7. A fuel injection system according to claim 6, characterized in that arranged for at the injection end of the fuel injector (2)

Flame protection shields (18; 20) the first angle of inclination ßi. is between 0 ° and 90 ° and the second angle of inclination β _{2 is} between 0 ° and 180 °.

8. Fuel injection system according to claim 6, characterized in that for on the wall (17) of the receiving bore (3) of the cylinder head (4) arranged flame protection shields (18; 20) the first inclination angle β between -90 ° and 90 ° and the second inclination angle ß _{2 is} between -90 ° and 270 °.

9. The fuel injection system according to claim 1, characterized in that the flame protection shield (18; 20) is in the form of a partial sphere.

10. Fuel injection system according to one of claims 1 to 9, characterized in that ^' the flame retardant shield (18) is divided into several partial shields (20).

11. Fuel injection system according to one of claims 1 to 10, characterized in that the flame protection shield (18; 20) projects over a surface (16) of the cylinder head (4) facing the combustion chamber in the spray direction.

12. Fuel injection system according to one of claims 1 to

11, characterized in that ^• the flame protection shield (18; 20) is supplemented by a further shield (24) which is arranged on a radially inner side of the flame protection shield (18; 20).

13. Fuel injection system according to one of claims 1 to

11, characterized in that the flame protection shield (18; 20) in the axial direction

Extension (25) which is bent radially inwards in the direction of the spray-side end (23) of the fuel injection valve (1).