DE3221374A1 - Device for the injection of ignition fuel on the one hand and main fuel on the other hand for diesel engines - Google Patents

Abstract

A device for the injection of ignition fuel on the one hand and main fuel on the other hand for diesel engines has a high-pressure injection pump for the main fuel and a main-fuel nozzle (16), opening when the injection pressure is reached. It has, furthermore, for the ignition fuel a separate low-pressure pump and, downstream of the latter, an ignition-oil nozzle (19), likewise opening when a predetermined injection pressure is reached. The low-pressure pump is connected to an upstream storing space (40), which is formed in a pressure divider and to which an ejection piston (38) is assigned, which can be impinged by the pressure of the main fuel. In order to ensure ejection of the ignition fuel without any afterdribble, the ejection piston (38) is provided with a cut back channel (44), which towards the end of the injection stroke of the ejection piston (38) connects the upstream storing space (41) to a cut back line (47). <IMAGE>

Description

PATENT LAWYERS

DlPL-ING. DR. MANFRED RAU DIPL.-PHYS. DR. HERBERT SCHNECK APPROVED REPRESENTATIVE FOR THE EUROPEAN PATENTAi

VNR 1o6984 Nuremberg, 04.06.1982

R / St

Motoren-lserke Mannheim Aktiengesellschaft vorm. Eenz Dept. stationary iMotorenbau, Carl-Benz-Str. 5, 6800 Mannheim 1

Device for injecting ignition fuel on the one hand and main fuel, on the other hand, for diesel engines

The invention relates to a device according to the preamble of claim 1.

Such a device is known from DE-OS 3o 11 376. In this known device, the amount of the pilot fuel to be stored and thus also the Set the amount of ignition fuel to be injected or are regulated, whereby a good adaptation of the Zündkraf tstof finengen to starting or operating conditions is possible. In the known device there is a problem that the injection of the ignition fuel is not post-spray-free.

The invention is therefore based on the object of developing a device of the generic type so that the ignition fuel is injected without post-injection.

D-8500 NORNBERG 91 POST BOX Vl 04 80 LANGE ZEILE 30 TELEPHONE 09 11/371 47 TELEX 06/23 965 POST CHECK NBG. 1843 5! -

According to the invention, this object is achieved by the characterizing features of claim 1. The essence the invention is that towards the end of the delivery stroke of the ignition fuel, a release of the pressure of the upstream ignition fuel takes place, so that at the latest At the end of the delivery stroke of the extension piston, the upstream ignition fuel is largely depressurized that there is no subsequent injection. This shutdown takes place continuously, so that pressure surges are also avoided will. The features of claims 2 and 3 contribute to solving this problem. The invention Measures can be used particularly advantageously in combination with the measures according to claim 4 known per se.

Further advantages and features of the invention emerge from the description of an exemplary embodiment the drawing. It shows

Fig. 1 shows a device according to the invention in schematic Representation with pressure divider attached to an injection nozzle and

Fig. 2 shows a pressure divider according to the invention in schematic form Sectional view.

As can be seen from FIG. 1, there is a cylinder liner 2 of a cylinder 3 in the crankcase 1 of a diesel engine arranged. Cooling water channels 4 are formed between the cylinder liner 2 and the cylinder 2. In the A cylinder liner 2 is arranged in the direction of its central longitudinal axis 5 movable piston 6, which is usually by means of piston rings 7 opposite the cylinder barrel

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sleeve 2 is sealed. A depression is formed on the piston head 8.

The cylinder 3 is closed by a cylinder head 1o, in which an inlet valve 11 is mounted. The inlet valve connects the cylinder liner 2, the cylinder head Io and the piston head 8 bounded combustion chamber 12 and a leading through the cylinder head 1o Intake channel 13 for combustion air with each other if it is open, or it separates the two from each other when it is closed.

A nozzle holder 14 is also located in the cylinder head 1o with nozzle 15 for a main fuel, for example Ethanol, arranged. For the sake of simplicity, this unit is hereinafter referred to as the main fuel nozzle 16.

Furthermore, in the cylinder head 1o there is another nozzle holder 17 with a nozzle 18 for an ignition fuel, for example Diesel fuel, arranged. This unit is below referred to as ignition oil nozzle 19 for the sake of simplicity.

On the side of the crankcase 1, an injection pump 2o is attached, the suction side 21 over in the usual way a suction line 22 with a storage container 23 for a main fuel that is generally unwilling to ignite, usually that is, ethanol. A pressure line 25 for leads from the pressure side 24 of the injection pump 2o the mentioned main fuel to one on the nozzle holder 14 attached pressure divider 26, which will be described in more detail below.

With the pressure divider 26 is a reservoir 27 for an ignitable fuel, usually so conventional

OLL IO / H

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tional diesel fuel, via a feed line 28 connected, in which a low pressure pump 29 is connected. That via this feed line 28 to the pressure divider supplied ignition oil is from the pressure divider 26 via an ignition oil pressure line 3o of the ignition oil nozzle 19 is supplied. From the main fuel nozzle 16 and the ignition oil nozzle 19 lead into Usually leak oil lines 31, 32 back to the respective storage containers 23 and 27. "In the drawing are all lines 22, 25, 31, the main fuel lead, shown in dashed lines, while all lines 28, 3o, 32, which carry the ignition fuel, dash-dotted lines are shown. In the pressure divider 26 there is generally a pre-storage of the with low pressure of the low-pressure pump 29 supplied ignitable fuel, so the ignition oil, which then with the help of the high pressure of the main fuel coming from the injection pump 2o is injected. As far as that Embodiment is described so far, it is known from DE-OS 3o 11 376.

In the pressure divider 26, a pressure piston 34 is in a corresponding pressure cylinder 33 in its longitudinal direction arranged displaceably, from one side via the pressure line 25 with the pressure of the injection pump 2o funded main fuel can be acted upon. A pressure channel 36, which leads to the nozzle 15 of the main fuel nozzle 16, also discharges from this pressure chamber 35. An extension piston 38 is arranged coaxially to the longitudinal axis 37 of the pressure piston 34 and is connected to the pressure piston is connected in one piece and rigidly at a distance from this by means of a connecting rod. The extension piston is axial in a corresponding pre-storage cylinder 4o corresponding to the movements of the pressure piston 34 displaceable, which has a preliminary storage space 41 on the side facing away from the pressure piston 34. The diameter

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The water of the ejection piston 38 and thus of the pre-storage cylinder 4o is smaller than the diameter of the pressure cylinder 33 or the pressure piston 34, so that the pressure piston 34, connecting rod 39 and extension piston 38 existing unit forms a differential extension piston. From the bottom 4 2 of the pre-storage cylinder 4o the ignition oil pressure line 3o leading to the ignition oil nozzle 19 discharges. The one coming from the low pressure pump 29 The supply line 28 for the ignition oil opens in the area of the base 42 into the pre-storage space 41, so that also starting from a position of the push-out piston 38 in the vicinity of the bottom 4 2, a filling of the preliminary storage space 41 from the low pressure pump 29 is possible. In the line 28 is immediately before the confluence with the Pre-storage space 41 ', a check valve 43 is arranged, which prevents the ignition oil from being fed back directly from the pre-storage space into the supply line 28.

The extension piston 38 is provided with a discharge channel 44 which, beginning in the piston head 45, forms the preliminary storage space 41 ir.it an annular channel 4 6 connects the one on the outer circumference of the extension piston 38 is attached. The distance between the piston pin 4 5 and the ring channel 4 6 is in any case greater than the largest possible stroke of the extension piston 38. The annular channel 46 and thus the diverting channel 44 is assigned a diverting line 47 opening into the preliminary cylinder 4o, which opens into the feed line 28 for the ignition oil. In this diverting line 47 is a check valve arranged, by which it is prevented that from the low pressure pump 2 9 ignition oil directly via the control channel can be promoted into the storage room 41. In addition, this check valve 48 only opens at a high pressure, which is considerably higher than that

Delivery pressure of the low pressure pump. When the pressure of the low pressure pump is for example two to three bar, the opening pressure of the check valve is 4 8 for example fifty cash. Between the check valve 48 and the check valve 43 is in the supply line 28, a throttle 49 is arranged, which when the check valve opens 48 keeps the first high shocks away from the check valve 43, so that this check valve is opened 4 3 is avoided.

A displaceable in the direction of the longitudinal axis 37 protrudes into the space 5o penetrated by the connecting rod 39 Stroke limitation stop 51, which can be adjusted in the direction of the longitudinal axis 37 in that it is eccentric a rotatably mounted disc 52 is attached, which is connected to the disc 52 by means of a Pinion 53 engaging, provided with a toothing Control rod 54 is pivotable. This control rod 54 is driven by the motor controller. Through the stroke limiter stop the filling stroke of the extension piston 38 is limited.

The mode of operation is as follows: Due to the - constantly acting - low pressure of the low-pressure pump 29, the Pre-storage space 41 via the supply line 28 with ignition oil filled, this filling process going on until the extension piston 38 against the stroke limit stop 51 strikes in its respective setting. The delivery pressure of the low pressure pump 29 is so low that the nozzle 18 of the ignition oil nozzle 19 does not open under any circumstances. The preliminary storage of the ignition oil is now complete. If now the high pressure delivery of the main fuel from the injection pump 2o begins via the pressure line 25, the pressure piston 34 is from the pressure chamber 35 with high pressure applied with the result that - reinforced by the

Cross-sectional area ratio of pressure piston 34 to ejection piston 38 - the upstream ignition oil is injected through the ignition oil pressure line 3o with opening of the nozzle 18 into the combustion chamber 12. When the annular channel 46 and thus the diverting channel 44 partially overlap with the diverting line 4 7, part of the upstream ignition oil flows out of the preliminary storage space 41 through the diverting channel 44 and the annular channel 46 the throttle into the diverting line 47, whereby - as already explained - The check valve 48 opens only and only when the pressure applied to it has a certain - quite high - level. On the other hand, since the opening pressure of the nozzle 18 is higher than the opening pressure of the check valve 48, the delivery of the upstream ignition oil via the ignition oil pressure line 3o to the ignition oil nozzle 19 is completed. During the remainder of the stroke of the extension piston 38 to its top dead center position, this upstream ignition oil is only diverted via the diverting line 47. Partly overlapping with the injection of the ignition oil into the combustion chamber 12, the nozzle 15 of the main fuel nozzle 16 opens when a corresponding pressure is reached in the pressure chamber 35, whereupon the injection of the main fuel begins. Whether there is a temporal overlap of the two injection processes and to what extent this is the case depends on the opening pressures of the nozzles 15 and 18 and on the cross-sectional area ratio of the pressure piston 34 and the ejector piston 38.

Claims (4)

PATENT LAWYERS DlPL-ING. DR. MANFRED RAU DIPL-PHYS. DR. HERBERT SCHNECK APPROVED REPRESENTATIVE FOR THE EUROPEAN PATENT VNR 1o6984 Nuremberg, o4.o6.] 982 R / St Motoren-Werke Mannheim Aktiengesellschaft vorm. Benz Dept. stationary engine construction, Carl-Benz-Str. 5, 6800 Mannheim 1 Expectations 1 ./ Device for injecting ignition fuel on the one hand and main fuel on the other hand for diesel engines, with a high-pressure injection pump for the main fuel and a main fuel nozzle that opens when the injection pressure is reached and one for the ignition fuel
separate low-pressure pump and one downstream from this
Ignition oil nozzles which open when a predetermined injection pressure is reached are also provided, the
Low-pressure pump is connected to a pre-storage space formed in a pressure divider and wherein the pre-storage space is assigned a push-out piston which is connected to the
the pressure of the main fuel can be acted upon, characterized in that the extension piston (38) with a
Absteuerkanal (44) is provided, the towards the end of a
Injection stroke of the extension piston (38) connects the preliminary storage space: (41; with a discharge line (47). 2. Device according to claim 1, characterized in that the diverting line (47) is assigned a check valve (48) which opens at a pressure which is substantially D-85C0 NORNBERG 91 PO Box 91 04 80 LONG LINE 30 TELEPHONE 09 Il / 3 71 47 TELEX 04/23 965 POST CHECK NBG. 1843 52- higher than the delivery pressure of the low-pressure pump (29) but lower than the opening pressure of the ignition oil nozzle (19). 3. Device in which the discharge line (47) opens into the supply line (28) connecting the low-pressure pump (29) with the preliminary storage space (41) and in which the discharge line (4 7) and the preliminary storage space (41) enter between the junction Check valve (43) is arranged, according to claim 1 or 2, characterized in that a throttle (49) is arranged between the check valve (48) and the check valve (43). 4. Device according to one of claims 1 to 3, characterized in that the stroke of the Ausschubkolbens (38) is adjustable.