DE3609798A1 - Fuel injection device - Google Patents

Abstract

The device for the air-assisted injection of fuel into the intake line (10) of a mixture-compressing internal combustion engine has a support air line system, branching off from the intake line upstream of an arbitrarily adjustable throttle element and opening back into the intake line (10) immediately upstream of each of the inlet valves (12) assigned to the individual cylinders of the internal combustion engine, together with fuel injection valves (1), which are respectively assigned to a cylinder and inject a quantity of fuel, metered as a function of the operating condition, into a mixing pipe (2) of the support air line system entering upstream of the respective inlet valve (12). In order to achieve more favourable fuel delivery times and to avoid possible condensation of the fuel on the mixture-guiding walls, it is proposed that the fuel injection valves (1) be actuatable for the delivery of fuel into the mixing pipe (2) essentially only in those periods when the inlet valves (12) respectively assigned to them are opened. In addition, it is proposed that the outlet orifice (9) of the mixing pipe (2) be respectively arranged close to the inlet valve at a point of the intake line (10) exercising a jet pump action on the support air-fuel mixture. <IMAGE>

Description

Fuel injector

The invention relates to a device for air-assisted Injection of fuel into the intake line of a mixture-compressing internal combustion engine according to the preamble of claim 1.

Such a fuel injection device is, for example, off DE-OS 30 33 644 known. With this also as air-jacketed low-pressure injection designated fuel supply system, the fuel is added to the individual However, suction lines just as continuously as with another, for example from DE-OS 32 22 000 known injection device, in which a single central Injection nozzle is present, which meters the fuel in a support air line system. There, the fuel-supporting air mixture was simultaneously in a distribution device all injection lines assigned to the individual cylinders of the internal combustion engine allocated and consequently also continuously delivered to the intake manifolds. As long as the associated inlet valves are closed, a pre-storage takes place of the fuel / support air mixture in front of the valves.

It is only when the inlet valves open during the intake stroke of the internal combustion engine that the mixture supplied, together with the air drawn in directly through the intake line, enters the working spaces of the cylinders. Due to this pre-storage of the fuel-supporting air mixture in front of the closed inlet valves during the larger number of working cycles of the internal combustion engine, which preferably works in four-cycle operation, condensation and wall build-up of the fuel can occur, so that the advantages achieved by the otherwise favorable fuel preparation at least to be partially nullified again.

The object on which the invention is based is therefore to provide a Fuel injection device of the type mentioned in the preamble of claim 1 To create a design that creates the conditions for improved combustion of the Fuel in the combustion chambers of the internal combustion engine through cheaper processing of the fuel while largely avoiding fuel condensation on the the fuel-air mixture provides leading walls.

The solution to this problem is provided by those listed in claim 1 Features achieved. The fact that according to the invention the individual cylinders of the Internal combustion engine in each case assigned fuel injection valves essentially only at the times when the intake valves assigned to the respective cylinders are open, can be actuated to dispense the fuel, it is achieved that the The fuel / support air mixture exiting the mixing tube directly into the combustion chambers the cylinder arrives and has no more chances, for example on the walls Intake line, as happens especially during a cold start and in the warm-up phase, to condense.

Further expedient refinements of the invention emerge according to the characteristics of the subclaims.

In the drawing, an embodiment of the invention is shown on the basis of a schematic longitudinal section through an intake line of an internal combustion engine operating with air-assisted fuel injection. In the drawing, 1 indicates a fuel injection valve which is used to deliver a fuel quantity assigned to an individual cylinder of the internal combustion engine in a manner known per se, depending on the operating state of the internal combustion engine, above all depending on the total amount of air sucked in by the internal combustion engine control device not shown here is controlled. The fuel injection device, designed as an electromagnetic fuel injection valve, delivers the fuel individually metered to the respective cylinder of the internal combustion engine into a mixing tube 2, which is held in a bore 14 of the cylinder head 11, preferably by gluing, so that the outlet opening 9 of the mixing tube is close to the inlet valve 12 opens into the intake pipe 10 associated with this inlet valve. In this case, when the inlet valve 12 is open, it should develop in the intake pipe 10 Intake air flow exert a jet pump effect on the fuel / support air mixture flowing in the mixing tube 2, which is why the confluence of the mixing tube should take place in an area of the intake tube in which there is a high flow velocity, for example due to a narrowing of the cross section. The alignment of the mixing tube 2 is also such that the fuel-supporting air mixture exiting from it passes directly through the opened inlet valve 12 into the combustion chamber 13 of the cylinder and effects an advantageous stratification of the charge there.

To make sure that the last one, from the injector, is if possible 1 drops of fuel sprayed into the mixing tube 2 during an injection process immediately pass through the still open inlet valve into the cylinder combustion chamber and can burn there, unlike with conventional injection devices, here the injection end of each injection valve is determined in the map and based thereon the start of injection according to the injection time determined as a function of the operating state varies. The end of injection must take into account the transport routes of the injection nozzle to the cylinder so far before the closing time of the inlet valve be placed so that the fuel has enough time to get into the cylinder reach.

An air duct surrounding the injection nozzle 15 of the injection valve 1 3, in the embodiment shown in the drawing, via a hose line 8a connected to an allocation device 4, seen in the air flow direction a feed pump 7 is connected upstream. The suction side of the feed pump 7 is via a Line 6 with a point of the suction line which is at atmospheric pressure level connected to the internal combustion engine, preferably a point between one here Air flow meter, not shown, and the arbitrary one, also not shown adjustable throttle body (throttle valve). The allocation device 4 can by a Be formed rotary valve, which the pressure side of the feed pump 7 in the cycle of the internal combustion engine connects to the mixing tube 2 via separate hose lines 8a to 8d, which leads to the just opened intake valve of the internal combustion engine. Appropriately the rotary valve 4 is therefore driven by the camshaft of the internal combustion engine.

The feed pump 7, which is only to be provided in addition, if necessary which is also downstream of the fuel injection valve 1 in the direction of flow, then but could be arranged in a number corresponding to the number of cylinders, can be driven by the internal combustion engine; however, it is also an electrical one or other machine-independent drive possible.

Due to the special arrangement of the mixing pipe 2 in the suction pipe 10 in the vicinity of the inlet valve 12 so that when the inlet valve is open Occurring air flow through the suction pipe 10 a suction jet effect on the Mixing tube 2 is exercised, both at low and high loads of the Internal combustion engine a favorable pressure difference compared to the atmospheric pressure level the branching point of the support air line in front of the throttle valve is reached, that for a cheap support air supply and thus for a quick transport the amount of fuel delivered by the injection valve 1 into the combustion chamber 13 of the Internal combustion engine ensures.

While at high loads of the internal combustion engine for the promotion the support air in the support air line system 6, 8 required pressure difference in essentially due to the high air speed in the intake manifold 10 the mixing tube outlet opening 9 occurring dynamic negative pressure is generated, results at idle and in the low partial load area, in which the air throughput through the intake manifold 10 is low, due to the throttling of the intake air correspondingly lower static pressure at the mixing tube junction, which is also for a significant pressure difference to maintain a support air flow cares.

The feed pump 7, which may also be provided, supports this support air flow even more particularly, whereby by the arrangement of the dispensing device 4, which only acts on the mixing tubes 2, which are the inlet valves that have just opened 12 are assigned, which only needs a low delivery rate to be demanded.

Due to the regulation that the injectors 1 should only be actuated if the intake valves belonging to the cylinders assigned to these injection valves are open, there is condensation of fuel leading to the mixture Pipe walls largely avoided. Through the individual cylinder fuel metering an optimal mixture ratio can be set for each cylinder, and that too the respective operating conditions, for example also through aging conditional changes, can be adjusted.

By supplying the fuel by means of carrier air, a effective fuel processing is achieved, if necessary through a targeted Preheating of the supporting air or the mixture, for example in cold start and warm-up mode, can still be improved. For example, the supporting air can be preheated Simply by relocating the supporting air supply ducts in the cylinder head or else also by direct heating of the air lines 6, 8 or the mixing tube 2 by means of e.g. electrical and preferably self-regulating heating elements can be achieved. In full load operation, in which an air or mixture preheating due to the risk of knocking is undesirable, could possibly switch to a direct feed cold support air, for example bypassing the air arranged in the cylinder head Feed channels, can be switched.

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Claims (13)

CLAIMS 1. Device for air-assisted injection of fuel into the intake line of a mixture-compressing internal combustion engine with one of the intake pipe branching off and each immediately in front of the individual cylinders the internal combustion engine associated intake valves in the corresponding intake manifolds opening support air line system and with fuel injection valves, each are assigned to a cylinder and a fuel quantity metered as a function of the operating state in each case a mixing tube of the support air line system opening in front of each inlet valve inject, characterized in that the fuel injection valves (1) essentially only during the times when the intake valves (12) assigned to them are open are, can be actuated to dispense fuel into the mixing tube (2). 2. Device according to claim 1, characterized in that each Mixing tube (2) in a jet pump effect on the one flowing through the mixing tube Support air-fuel mixture causing manner in the intake pipe (10) close to the Inlet valve (12) opens. 3. Device according to claim 1 or 2, characterized in that the mixing tube (6) for injecting the support air-fuel mixture through the opened inlet valve (12) through directly into the combustion chamber (13) of the respective Cylinder is aligned. 4. Device according to claim 1, characterized in that each Fuel injection valve (1) is designed such that the end of injection in the engine map is determined and, based on this, determined in accordance with the operating state-dependent Injection time the start of injection is varied. 5. Device according to one of claims 1 to 4, characterized in that that at least one feed pump (7) is provided in the support air line system. 6. Device according to claim 5, characterized in that one A common feed pump (7) upstream of the injection valves (1) is a dispensing device (4) is connected downstream, which only feeds the supporting air to the mixing tube (2), whose associated inlet valve (12) is just open. 7. Device according to claim 6, characterized in that the allocation device (4) formed by a rotary valve operated in time with the internal combustion engine is associated with the feed pump (7) only with that of the respectively open inlet valve Mixing tube (2) connects. 8. Device according to claim 7, characterized in that the rotary valve (4) can be driven by the camshaft of the internal combustion engine. 9. Device according to one of claims 1 to 8, characterized in that that means for preheating the supporting air and / or the supporting air-fuel mixture are provided. 10. Device according to claim 9, characterized in that at least some of the lines (6, 8) in the cylinder head (11) conveying the supporting air is relocated. 11. Device according to claim 9, characterized in that in the Support air line (6, 8) an electrical heating device is arranged. 12. Device according to claim 9, characterized in that each An electrical heating device is assigned to the mixing tube (2). 13. Device according to claim 11 or 12, characterized in that that the electrical heating device is designed to be self-regulating.