EP1069307A1 - Fuel injection pump with pilot injection - Google Patents

Abstract

The fuel injection pump has a pump piston (2) in a cylinder (1b) and a compression cavity (3) supplying fuel via a feed line (9). The piston has an upper control edge (6) and at least one lower one (7). There is also a multistage pilot piston (11) pressurized by the fuel in the compression cavity, which forwards the pilot fuel. The surface of the first sector (11a) pressurized by the fuel in the compression cavity is considerably larger than the surface of the second sector (11b) which forwards the fuel.

Description

The invention relates to a fuel injection pump for an internal combustion engine according to the Preamble of claim 1.

A fuel injection pump of this type comprises a one that is guided in a pump cylinder Pump piston and a pressure chamber acted upon by the pump piston which the fuel delivered by the pump piston to a delivery channel Injection is delivered into the combustion chamber of the internal combustion engine. The Pump piston has an upper control edge on the pressure chamber side and at least a lower control edge, these control edges by sweeping at least one in communication with a suction chamber of the fuel injection pump Control bore opening pressure chamber start and end of the fuel delivery of the Determine the pump piston. Furthermore, one is on the front of the one in the Pressurized fuel piston under pressure in the pressure chamber Promote a fuel quantity upstream of the rear of the pilot piston Pilot injection is provided in the combustion chamber of the internal combustion engine.

The injection of a relatively small amount of fuel as a so-called pilot amount Start of combustion, that is before the start of injection for the The main injection quantity required for combustion is in internal combustion engines, especially diesel engines, a suitable measure to improve the operating behavior of the To significantly improve the internal combustion engine.

So far, either complete separate injection systems have been used for this purpose were used which were used only to supply such a pilot quantity, or were to promote the main fuel quantity serving fuel injection pumps by one hydraulic, additional pilot piston, which is on the front of the generated by the pump piston of the fuel injection pump in the pressure chamber Pressure wave applied and a quantity of fuel upstream of its rear Promotes pilot injection into the combustion chamber of the internal combustion engine. Such Fuel injection pump is described for example in DE 40 18 535 C2 and from Such a fuel injection pump is based on the present invention.

A disadvantage of the known fuel injection pump is that it has only a limited one Advance of the injection of the pilot quantity over the injection of the Main quantity allows. To further improve the combustion process in the The combustion chamber of the internal combustion engine would, however, be a larger spread over time Pilot quantity injection and main quantity injection desirable.

The object of the invention is therefore to provide a fuel injection pump Kind in such a way that they have a greater advance in injection timing Pilot amount allowed against the injection of the main fuel amount.

This object is achieved by a fuel injection pump with the in claim 1 specified features solved.

Advantageous developments of the fuel injection pump according to the invention are in the Subclaims marked.

The fuel injection pump according to the invention comprises one in a pump cylinder guided pump piston and a pressure chamber acted upon by the pump piston, from which the fuel delivered by the pump piston via a delivery channel Injection is delivered into the combustion chamber of the internal combustion engine. The Pump piston has an upper control edge and located on the pressure chamber side at least one lower control edge, which can be achieved by painting over at least one connected with a suction chamber of the fuel injection pump in the Control bore opening pressure chamber start and end of the fuel delivery of the Determine the pump piston. One at the front of the one in the print room located, pressurized fuel pressurized pilot piston is for Promotion of an upstream amount of fuel for pilot injection in the combustion chamber of the internal combustion engine is provided. The pilot piston is according to the invention formed as a multi-stage piston, one of which is located in the pressure chamber Fueled first section of the pilot piston a much larger area has as a second section of the pilot piston that delivers the upstream fuel quantity.

A particular advantage of the fuel injection pump according to the invention is that the Pilot piston due to the much larger dimension of that in the pressure chamber located fuel applied area as the upstream amount of fuel promoting area acts as a pressure booster piston, so that the already before The control bores close due to the movement of the pump piston building initial pressure is sufficient to promote the movement of the pilot piston Initiate pilot quantity. This limits the volume losses, which due to the amount of fuel required to move the pilot piston necessarily occur, although for the displacement of the pilot piston because of the larger acted area even a larger fuel volume than the conventional fuel injection pump is required. That means it will be in Advantageously, a larger advance of the pilot injection with a Combined higher efficiency of the fuel injection pump.

The surface area is advantageously that of the one located in the pressure chamber Fueled first section of the pilot piston between 3 times up 20 times, preferably between 5 times to 12 times the area of the upstream fuel quantity promoting second section of the pilot piston.

According to one embodiment of the fuel injection pump according to the invention, it is provided that the pilot piston at the pressure chamber end of the pump housing Fuel injection pump is arranged, and that of that in the pressure chamber located fuel applied to the front of the pilot piston via a Connection channel is coupled to the pressure chamber. This enables a space-saving Arrangement of the pilot piston on the fuel injection pump.

According to an advantageous embodiment, the pilot piston is in a multi-stage Bore slidably mounted, the one on the back of the one in the Fuel chamber located in the pressurized first section of the space multi-stage drilling via a connecting channel with the suction chamber Fuel injection pump is coupled. This advantageously becomes part of the Displacement of the pilot piston required from the pressure chamber of the Fuel injection pump withdrawn the amount of fuel directly into the suction chamber of the Fuel injection pump returned.

A stop which limits the conveying movement of the pilot piston is preferably intended.

According to an advantageous development of the fuel injection pump according to the invention it is provided that the second section delivering the upstream fuel quantity of the pilot piston one or more control bores or control edges for limitation of the pilot injection quantity, and that in a part of the bore in which the second section of the pilot piston is guided, at least one with the control bores or control edges cooperating recess for deriving the from the pilot piston delivered fuel is provided in the sense of ending the pilot injection. This enables the pilot injection quantity to be calibrated independently of the total stroke of the Pilot piston.

The one which cooperates with the control bores or control edges is preferred Recess via a connecting channel with the suction chamber of the Fuel injection pump coupled. As a result, the one that is not intended for injection Part of the amount of fuel delivered by the pilot piston is returned directly.

These are preferably those with the control bores or control edges interacting recess with the suction space coupling connecting channel and that on the back of the fuel in the pressure chamber acted upon first section of the control piston located space of the multi-stage Bore connecting channel with the suction chamber through a common Hole formed.

A preferred embodiment of the fuel injection pump according to the invention is explained below with reference to the drawing.
The figure shows a partial sectional view of a fuel injection pump according to an embodiment of the invention.

In the figure is part of a fuel injection pump for injecting fuel into the Combustion chamber of an internal combustion engine shown in section. Reference numeral 1a means a pump housing in which a pump cylinder 1b is provided. By doing Pump cylinder 1b, a pump piston 2 is slidably mounted in the axial direction, wherein the pump piston 2 is formed on the top of the pump cylinder 1b Pressure room 3 limited. At the lower end no longer shown in the figure is the Pump piston 2 is provided with a piston foot through which the pump piston 2 by means of a cam driven by the internal combustion engine in an oscillating manner is driven. Furthermore, one is also in at the lower end of the pump piston 2 piston plunger, not shown in the figure, by means of which the pump piston 2 to control the injection duration and quantity over a predetermined angular range its axis is rotatable.

On a piston head 5 formed at the end of the pump piston 2 on the pressure chamber side an upper control edge 6 on the pressure chamber side is provided. Furthermore, on the Pump piston 2 formed two lower, oblique control edges 7. The upper Control edge 6 and the lower control edges 7 limit together with a piston groove 8, which connects the pressure chamber 3 with the underside of the oblique control edge 7, each produces a control triangle, which is covered by painting one with one suction chamber 20 located outside the pump cylinder 1b Fuel injection pump connected, opening into the pressure chamber 3 Control bore 4 determines the beginning and end of fuel delivery of the injection pump.

By rotating the pump piston 2 by means of the piston flag mentioned above is by changing the mutual position of the lower control edge 7 and Control bore 4 set the end of fuel delivery and thus the injection period. The fuel displaced from the pressure chamber 3 by the pump piston 2 is supplied via a a delivery valve 9 containing a pressure valve 21 is fed to a pressure connection 22, from where he to a fuel injector for injection into the combustion chamber of the Internal combustion engine is delivered.

At the pressure chamber end of the fuel injection pump is in a bore 10, which is designed as a multi-stage bore and a part 10a facing the pressure chamber with a larger diameter and a part 10b facing away from the pressure chamber 3 has a smaller diameter, a pilot piston 11 is slidably provided.

The pilot piston 11 is at the pressure chamber 3 of the fuel injection pump facing front via a part 10a of the bore 10 on the pressure chamber side the connection channel 18 coupling the pressure chamber 3 from the one in the pressure chamber 3 fuel, which is pressurized by the pump piston 2, by an amount of fuel upstream of the rear of the pilot piston for pilot injection to promote in the combustion chamber of the internal combustion engine. The pilot piston 11 comprises on his the front facing the pressure chamber 3 one of those in the pressure chamber 3 located fuel acted on the first section 11a, which in the larger Part 10a of diameter of the bore 10 is guided, and on its rear side a second section 11b which conveys the upstream fuel quantity and which in the the smaller diameter part 10b of the bore 10 is guided. The Fuel, which is upstream of the back of the pilot piston 11, is the one rear end of the part 10b of the bore 10 forming space 13 via a Delivery channel 14 delivered as a pilot injection quantity. The one in the pressure chamber 3 The area of the first section 11a that can be subjected to fuel is essential greater than the area of the second section that promotes the upstream fuel quantity 11b of the pilot piston.

Typically, the area of that in the pressure chamber 3 is Fueled first portion 11a of the pilot piston 11 between 3 times up to 20 times, preferably between 5 times and 12 times the area of the the pilot injection amount promoting second portion 11b. In the illustrated In the exemplary embodiment, the area of the first section 11a is 9 times the area of the second section 11 b, corresponding to the fact that the diameter of the Bore part 10a is three times the diameter of the bore part 10b.

The one on the back of the fuel in the pressure chamber 3 acted upon first portion 11a of the pilot piston 11 space 12 of the multi-stage bore 10 is via a connecting channel 17a with the suction chamber 20 of the Fuel injection pump coupled, this connecting channel 17a for the purpose of Clarity compared to its actual position in the figure rotated by 90 ° and is only partially shown.

At the rear end of the larger one facing away from the pressure chamber 3 Part 10a of diameter of the bore 10 is a stop 19 in the form of a Shoulder provided, which serves the stroke or the conveying movement of the Limit pilot piston 11.

At the second section 11b of the pilot piston 11 which conveys the pilot injection quantity two control bores 16 are formed, which with one in the smaller Diameter part 10b of the bore 10 provided recess 15 in Interact in terms of ending the pilot injection. These control holes 16 connect via an axially formed in the second portion 11b of the pilot piston 11 Bore 16a the back of the same with the recess 15 as soon as the Control bores 16, the recess 15 during the conveying movement of the pilot piston 11 to reach. The recess 15 is via a connecting channel 17b, which one Continuation of the aforementioned connection channel 17a forms, also with the Suction chamber 20 of the fuel injection pump coupled. Thus, when at Delivery movement of the pilot piston 11, the control bores 16, the recess 15 reach the fuel upstream of the second section 11b of the pilot piston 11 more promoted to pilot injection, but via the connecting channels 17b, 17a returned to the suction chamber 20 of the fuel pump.

Reference list

1a

Pump housing

1b

Pump cylinder

2nd

Pump piston

3rd

Pressure room

4th

Control bore

5

Piston head

6

upper control edge

7

lower control edge

8th

Piston groove

9

Conveyor channel

10th

drilling

11

Pilot piston

11a

first section

11b

second part

12th

rear room of the first section

13

rear room of the second section

14

Conveyor channel

15

Recess

16

Control bore

17th

drilling

17a

Connecting channel

17b

Connecting channel

18th

Connecting channel

19th

attack

20th

Suction chamber

21

Pressure valve

22

Connection

Claims (8)

Fuel injection pump for an internal combustion engine with one in one Pump cylinder (1b) guided pump piston (2) and one of the pump piston (2) pressurized pressure chamber (3), from which the pump piston (2) delivered fuel via a delivery channel (9) for injection into the combustion chamber Internal combustion engine is delivered, the pump piston (2) an upper, control edge (6) on the pressure chamber side and at least one lower control edge (7) which, by covering at least one with a suction space (20) the fuel injection pump in the pressure chamber (3) opening control bore (4) start and end of fuel delivery of the Determine the pump piston (2), and with one on its front from that in the Pressure chamber (3) located, pressurized fuel Pilot piston (11) to promote a fuel quantity upstream of the rear for pilot injection into the combustion chamber of the internal combustion engine, thereby characterized in that the pilot piston (11) is designed as a multi-stage piston, a first being acted upon by the fuel located in the pressure chamber (3) Section (11a) of the pilot piston (11) has a much larger area than that upstream fuel quantity promoting second section (11b) of the pilot piston (11). Fuel injection pump according to claim 1, characterized in that the surface of the first acted upon by the fuel located in the pressure chamber (3) Section (11a) of the pilot piston (11) between 3 times to 20 times, preferably between 5 times to 12 times the area of the upstream Fuel-promoting second section (11b) of the pilot piston. Fuel injection pump according to claim 1 or 2, characterized in that the Pilot piston (11) at the pressure chamber end of the pump housing (1a) Fuel injection pump is arranged, and that of the in the pressure chamber (3) located fuel acted on the front of the pilot piston (11) via a Connection channel (18) is coupled to the pressure chamber (3). Fuel injection pump according to claim 1, 2 or 3, characterized in that the Pilot piston (11) is displaceably mounted in a multi-stage bore (10), and that that on the back of the fuel in the pressure chamber (3) acted upon first section (11a) located space (12) of the multi-stage Bore (10) via a connecting channel (17a) with the suction chamber (20) Fuel injection pump is coupled. Fuel injection pump according to one of claims 1 to 4, characterized in that that a stop (19) limiting the conveying movement of the pilot piston (11) is provided. Fuel injection pump according to one of Claims 1 to 5, characterized in that that the upstream fuel quantity promoting second section (1 1b) of Pilot piston (11) one or more control bores (16) or control edges for Limiting the pilot injection quantity, and that in a part (19b) of the bore (10), in which the second section (11 b) of the pilot piston (11) is guided, at least one cooperating with the control bores (16) or control edges Recess (15) for deriving the fuel delivered by the pilot piston (11) in the The end of the pilot injection is provided. Fuel injection pump according to claim 6, characterized in that the with the Control bores (16) or control edges interacting recess (15) a connecting channel (17b) with the suction chamber (20) of the fuel injection pump is coupled. Fuel injection pump according to claim 7 in conjunction with claim 4, characterized characterized in that the with the control bores (16) or control edges cooperating recess (15) with the suction chamber (20) coupling Connection channel (17b) and the one at the rear of the one in the pressure chamber (3) located fuel acted upon first section (11a) of the pilot piston (11) located space (12) of the multi-stage bore (10) with the suction space (20) coupling connecting channel (17a) are formed by a common bore (17).

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