DE2633671C2 - Fuel injection pump for air-compressing injection internal combustion engines - Google Patents

Description

The invention relates to a fuel injection pump for air-compressing injection internal combustion engines according to the preamble of claim 1.

From DE-PS 12 53 952 an injection pump of the aforementioned type is known, in which by the pre-injection piston first a small amount of fuel and then after a brief interruption by the Main injection piston a larger amount of fuel is injected. The one at a distance above the main injection piston The pre-injection piston located at bottom dead center is provided with a control edge that is marked with The pre-injection ends immediately when a counter-control edge is reached in the pump housing part. To Removing the control edge of the pre-injection nozzle from the guide hole and shutting off the fuel supply or overflow hole through the main injection piston sets after a time interval the main injection. Such a type of control leads to a smooth and stable run the internal combustion engine, but it is only suitable for powerful internal combustion engines, in particular for ship engines, since these are particularly suitable at full load operate. However, irregularities occur in the idle and part-load range because the main injection fails partially or in the worst case completely. The pilot injection, the main injection, thus becomes full effective only to a small extent. In between is the injection hole (zero delivery). Just this injection hole with subsequent partial main injection causes the unstable running of the Internal combustion engine in the lower load and idle range.

A control of this kind is, however, for high-speed ones Internal combustion engines, which are subject to frequent load changes, are disadvantageous.

The invention is zuninde the task of a To achieve the injection pump intended for high-speed electric engines through simple measures, that a stable, smooth running of the internal combustion engine is ensured in the idle and in the entire load range is

This object is achieved according to the invention by the in the characterizing part of claim 1 specified features solved.

The new measures result in a significantly shorter overall injection phase without an injection hole is supported by the pressure increase as a result of the storage before the start of the main injection phase.

The shorter overall injection phase does not apply here Burdens of slow advancement of pre-injection which continues to persist. E3 is thus in all Operating ranges achieved a combustion that a smooth gear in internal combustion engines, in particular those for motor vehicles, which are subject to frequent load changes, guaranteed.

1 of FR 8 14 513 shows an injection pump that is comparable with regard to the lifting of a piston known with two pump pistons per pump cylinder, but with no connection between the pump pressure chamber and the pump working chamber. The pre-injection piston has a rod-shaped one upper piston part and a lower piston part which is much larger in diameter and which is on a here serving as a drive piston rests piston. The pump pressure space as well as the pump work space have a connection bore to a pump suction chamber. At the beginning of the piston stroke movement is the upper part of the piston to the drive piston by spring force. During the piston stroke, the one closes first The upper part of the piston has its Arischlußbohrung, with which a gradual fuel injection begins During the course of the piston stroke, the connection bore to the pump working space is then also closed. Because of the sudden repression of Krafisioff by means of the drive piston, the upper part of the piston now lifts off the drive piston, so that the upper part Piston part now has a larger pressure control mechanism

3 4

is promoted per unit of time without the drive fuel inlet or overflow bore 10 and The piston engages directly in the fuel delivery which has flowed in through the through-hole 12. known injection pump thus gives way structurally and when going up through the cam 6 of the cam

functionally kenwelle of the inventive injection pump 7 3 of a distance "a" reaches the main injection plunger to 5 _from the lower end of Voremspritz-

An advantageous and beneficial development of the piston 4 (Figure 3) - a part of the previously funded Invention can be found in the dependent claim. The amount of fuel flows in through the bore 10.

In the drawing, the subject of the invention is back - and interrupts the connection working space shown on the basis of an exemplary embodiment and in 5 / Druckraumil. described in more detail below. It shows io by F i g. 3 the pre-injection piston 4 pumps off,

FIG. 1 a pump element of an injection pump in the forced fuel is drawn from the pump pressure chamber 11 in a longitudinal section. ^Via a relief pressure valve into a pressure line

Fig. 2 to 7 in a reduced representation of the joint to the injection nozzle (valve, line and nozzle are not effect of main injection piston and pre-injected) depressed The delivery per degree of cam injection piston during a working stroke and 15 angles, as shown in FIG. 8 to the diagram shown

F i g 8 a diagram in which the two-stage conveying can be taken, initially increasing continuously, flow rate per degree of cam angle above the cam As soon as the main injection piston 3 stops the pump arm

kenwinkel is shown, the space 5 seals against the bore 10 (Fig. 4),

A in the F i g. 1 to 7 shown pump element 1, the pressure in the pump working space 5 increases so, dali an injection pump for air-compressing injection pistons 20 of the pre-injection pistons 4 on the pressure application surface 16 Internal combustion engine consists essentially of one against the pressure of the spring 15 and Regen the Kraftnem Pump cylinder 2 and two stacked material pressure in space 11 is raised so that the Neten pump pistons, of which the fuel, denoted by 3, is displaced from the pump chamber -5 the main injection piston and the coaxial with this through the through hole 12 through to the insert and denoted by 4, the pre-injection piston 25 is transported to the injection nozzle (FIG. 5). With the start of funding forms the main injection piston 3, there is a sudden jump

Only in the lower part of the pump cylinder 2 in the increase in the delivery rate per degree of cam angle (s. Pump working space 5 guided in a longitudinally movable manner and shown in the diagram according to FIG. 8th). The end of support for both of them Cam 6 of a camshaft 7 controllable the piston 3 and 4 is in F i g. 6 reached in which the In addition to a pump working 30 control edge 9 on the piston 3, the main injection piston 3 intersects the bore 10, Central blind hole 8 opening in a space rope so that the pressure in the pump pressure space 11 increases over the ne extending from this, on the piston circumferential side, through-hole 12, blind hole 8 and end of the bore can relax inclined groove to form an inclined control 10 in the pump cylinder 2, edge 9, which is associated with the fuel inlet or overflow In F i g. 7 is the main injection piston 3 in the O.T. position

hole 10 door the completion of the injection compilation shown 35, acts. In summary, it can be said that the pre-adjustment

This borehole 10, which is arranged in the pump cylinder 2, piston 4 the start of delivery (FB 3) from FIG. 3, the main through At position U.T. of the main injection piston 3, injection piston 3 indicates the start of delivery (FB 4) from Fig. 4 the fuel into the pump working chamber via the pilot control and the delivery end (FE 6) from both pistons injection piston 4 in the overlying pump 40 F i g. 6 is reached.

pressure chamber M arrives. For the fuel supply and

-Process is arranged in the pre-injection piston 4- For this purpose 3 sheets of drawings

nete through hole 12. ~~

The pre-injection piston 4 is smaller in diameter than the main injection piston 3 and than a stub 45
fenkolben, whose piston part 14, which is larger in diameter, seals in the cylinder bore 18
and its transition shoulder to the im
Smaller diameter, in the pump working space 5
piston part 13 protruding into it has a pressure application surface 50
forms and at the same time as an annular protruding
Stop 16 is used.

With this stop 16, the pre-injection piston
by a spring 15 in the direction of the main injection piston 3 against a fixed counter-stop 55
17 pressed. The counter-stop 17 is formed by a radially inwardly protruding into the pump working chamber 5,
formed on the cylinder side fixed ring. So is
by the Gegenansihlag or ring 17 the downward stroke
of the pre-injection piston 4 is limited in such a way that in the 60
Pump working space 5 between the lower end of the
Pre-injection piston 4 and the main injection piston 3
a free space "a" remains.

The injection pump works as follows:

In the lowest position of the main injection piston 3 65
2 isi ifer pump pressure chamber 11 above the
Pre-injection piston 4 and the pump working chamber 5 with
Fuel filled, the front suction chamber through the

Claims (2)

Patent claims: 1.Fuel injection pump for air-compressing injection internal combustion engines with a main injection piston that is driven by a cam, delimits a pump work chamber and controls a fuel inlet or overflow bore, with a central blind hole opening on the pump work chamber side, which is provided with an inclined groove on the circumference of the piston to form an inclined, with the fuel Inlet or Overflow bore for the purpose of terminating the injection cooperating control edge is in connection and with a pre-injection piston of smaller diameter, which is also actuated by the main injection piston, is arranged separately and coaxially thereto, delimits a pump pressure chamber connected to an injection line and, guided in a cylinder bore, has a coaxial through-hole formed in the main injection piston as well as a ring-shaped protruding stop with which the pre-injection piston is pressed by a spring in the direction of the main injection piston against a fixed counter-stop, through which the pre-injection piston in the lower dead center position of the main injection piston, which controls the fuel inlet or overflow bore, of the main injection piston facing end protruding into the pump working chamber is held at a certain distance from the main injection piston, characterized in that the pre-injection piston ( 4) is designed as a stepped piston which, with its larger diameter piston part (14), is sealingly guided in the cylinder bore (18) and whose transition shoulder to the smaller diameter piston part (13) protruding into the pump working chamber (5), as an annular stop ( 16) serves to form such a pressure application surface delimiting the pump working space (5) that after the closing of the fuel inlet and overflow bore (10) through the main injection piston. (3) which, after overcoming the distance (a) between it and the pre-injection piston (4), initially rests on the main injection piston (3), lifts off the pre-injection piston (4) against the force of the spring (15) from the main injection piston (3). 2. Fuel injection pump according to claim 1, characterized in that as an annular stop (16) serving transition shoulder between the two piston parts (13, 14) of the pre-injection piston (4) with the ring that protrudes radially inward into the pump working chamber (5) Counter stop (17) cooperates.