DE3738558A1 - Fuel injection device - Google Patents

Abstract

A description is given of a fuel injection device for a multi-cylinder mixture-compressing (spark-ignition) internal combustion engine, which has a central fuel injection valve (1) with a valve element (5) axially displaceable between an open and a closed position relative to a fixed seat element (6) containing ejection openings (8) individually assigned to the cylinders of the internal combustion engine. In order to achieve as uniform as possible distribution of the fuel to the individual ejection openings in the open condition of the valve element and a good sealing action when the valve element is closed, one of the two components of the injection valve (1), namely the valve element (5) or the seat element (6), should have at least partially the shape of a sphere and the other component the shape of a circular cone interacting with the sphere to form a sealing seat. In this arrangement, the ejection openings (8) on the seat element (6) should start from a region (13) situated within the sealing seat between the seat element (6) and the valve element (5). <IMAGE>

Description

The invention relates to a fuel injection device for a Multi-cylinder, mixture-compressing internal combustion engine according to the preamble of claim 1.

In known injection devices of this type is said that a zen trales injection valve is provided, which is the fuel for all cylinders the internal combustion engine metered together and in individual, the cylinders each assigned injection lines opening into the associated intake manifolds injects evenly distributed, the otherwise necessary effort for the one set of several injectors individually assigned to each cylinder will. When working with such injectors, however, this results Difficulty in the closed position with a good seal between the valve body and the seat body having the injection openings and in the Open position an exact distribution of the fuel on the spray openings assigned to the individual cylinders of the internal combustion engine to achieve.

The underlying object of the invention is therefore a Injection device of the type mentioned in the preamble of the claim create the demands mentioned above with as little effort as possible Fulfills.  

The solution to this problem arises according to the characteristics of the patent Proverb 1. By arranging such a spherical-circular cone configuration the possibility arises with relatively simple means and under reduction a largely self-centering ven tilausführung to create a good seal in the closed state and a favorable fuel distribution guaranteed in the open state.

Expedient embodiments of the invention are based on the features according to the Sub-claims emerge.

In the drawing, two designs are based on schematic principle representations tion examples of the invention shown, who explained in more detail below the. Show

Fig. 1 shows a longitudinal section through a fuel injection valve according to the invention in a first embodiment and

Fig. 2 in an enlarged scale a section of egg nem fuel injector according to a second embodiment of the invention.

In Fig. 1 of the drawing, 1 indicates a fuel injector as a whole, which has a valve body 5 held axially displaceably in a housing 2 . This valve body 5 is formed here as a cylindrical sleeve, which is held on a relatively long actuating rod 4 , at the end facing away from the valve body 5, a sleeve-shaped, from an electromagnetic coil 3 against a return spring 16 for axially adjusting anchors 17 is attached. 14 and 15 guide bearings for guiding the actuating rod 4 or the valve body 5 and the armature 17 are indicated.

The valve body 5 , which is of sleeve-shaped design here, has a circular conical sealing surface 10 on its end face, which comes to bear sealingly against a seat body 6 provided here with a spherical outer contour 9 . The water in the embodiment shown here as a solid ball body 6 is fixed in a holding plate 7 by pressing, welding, soldering or the like and has through holes 8 , which as the individual cylinders of the internal combustion engine assigned spray openings that NEN. These through holes should run near the center of the spherical seat body 6 and depart from a space 13 which is out half of the seat between the valve body 5 and the seat body 6 is formed. The through holes 8 are aligned with the inlet openings of injection lines 19 held in the lower part 18 of the injection valve 1 , which lead to the fuel injection points on the intake manifolds assigned to the individual cylinders of the internal combustion engine.

In order to improve the preparation of the injected fuel, the fuel is mixed with support air before mixing into the injection lines 19 in mixing rooms 20 , which is supplied by an air pump, not shown here, via an inlet channel 21 .

The fuel to be injected is pumped from a fuel pump, not shown here, via a pressure line 12 into a working space 11 , which is connected to the space 13 and thus to the spray openings 8 when the valve body 5 is lifted from the closed position shown in the drawing.

The amount of fuel to be sprayed is determined by the opening time of the valve body 5 , for which purpose the electromagnetic coil 3 can be controlled by a control unit (not shown here ) as a function of the operating state of the internal combustion engine.

In order to provide a uniform distribution of the metered fuel to the individual NEN cylinders of the internal combustion engine, the spray openings 8 , that is to say the passage openings provided on the spherical seat body 6 , must be distributed as evenly as possible over the circumference and provided with defined identical cross sections. If necessary, openings pressed into larger bores with defined cross sections can also be provided as spray openings, which precisely set the desired flow.

It should also be pointed out that, unlike in the embodiment shown here, the seat body 6 can also be formed only as a partial ball in which only the end face facing the valve body 5 has a spherical outer contour. On the other hand, this spherical contour need not be present on the side belonging to the injection lines 9 , so that the seat body 6 can also be designed as a hemisphere or the like.

In Fig. 2 it is indicated that the ball-cone configuration can also be provided in the reverse arrangement. There, the valve body 25 is provided with a spherical sealing surface 30 , while a circular cone-shaped recess 29 is provided as a seating surface on the seat body 26, which is essentially designed as a plate. In the plate-shaped seat body 26 at an angle to each other bores 28 are provided as spray openings to the individual injection lines, not shown there, which proceed from a space 33 remaining within the sealing seat between the valve body 25 and the seat body 26 . When the actuating rod 24 provided with the spherical sealing body 25 is lifted, this space 33 and thus also the spray openings 28 are connected to the pressure chamber 31 surrounding the valve body 25 , filled with pressurized fuel, so that the fuel injection through the spray openings 28 can begin .

The main advantage of the design according to the invention, in which either the Valve body or the seat body assumes a spherical outer contour, while rend the other body one with the ball to form a sealing seat has interacting circular cone-shaped contour, results above all in that with such a ball-cone seal, a self-centering at the components to achieve a good sealing effect is possible and accordingly no particularly high demands on the leadership of the valve body hal tendency and actuating components must be provided.

Claims (4)

1. Fuel injection device for a multi-cylinder, mixture-compressing internal combustion engine with a central fuel injection valve, which has an axially adjustable valve body between an open and a closed position compared to a fixed seat body, which contains the individual cylinders of the internal combustion engine separately assigned spray openings, characterized in that one of the two of the valve body ( 5 ; 25 ) and the seat body ( 6 ; 26 ) existing components of the injection valve ( 1 ) at least partially have the contour of a ball and the other component has the inner contour of a circular cone acting together with the ball to form a sealing seat. 2. Fuel injection device according to claim 1, characterized in that the spray openings ( 8 ; 28 ) on the seat body ( 6 ; 26 ) from a region within the sealing seat between the seat body ( 6 ; 26 ) and the valve body ( 5 ; 25 ) 13 ; 33 ). 3. Fuel injection device according to claim 1 or 2, characterized in that the seat body ( 6 ) at least on the valve body ( 5 ) facing th side in a holding plate ( 7 ) held ball with therein through holes for the spray openings ( 8 ) is formed and the valve body ( 5 ) has a circular conical sealing surface ( 10 ) which comes to bear on the ball for sealing contact. 4. Fuel injection device according to claim 1 or 2, characterized in that the valve body ( 25 ) is designed as a ball which comes in a seat body ( 26 ) provided with a circular conical seat surface ( 29 ) for sealing contact.