DE8303263U1 - FUEL INJECTION PUMP FOR INTERNAL COMBUSTION ENGINES - Google Patents

Description

The invention relates to a fuel injection pump for internal combustion engines, with at least one pump cylinder, which receives a pump piston, and at least one control edge on the pump piston, which cooperate controls the end of delivery with at least one control bore in the wall of the pump cylinder, wherein at the the side of the spill hole opposite the pump piston is an impact body made of cavitation-resistant material is arranged, which has a convex surface facing the spill hole.

Fuel injection pumps with impact protection are for example from AT-PS 306 445 or DE-PS 22 19 827 known, with the mouth on the gehäusese itigen the impact body provided for the spillage holes has the task of flushing out material at the points of impact to prevent the fuel jet discharged from the pressure chamber of the pumps at the end of the delivery stroke. In most such devices, the surfaces of the Prailkörper, which directly to the impinging Beam are exposed, concave or flat, which on the one hand has manufacturing reasons and on the other hand to serve the very high-energy directed fuel jet on the pneumatic tire on adjacent To prevent components.

However, it has been found that the Tendency to fuel injection systems for internal combustion engines operate with higher and higher pressures, the discharged fuel jets at the end of the delivery stroke

Such high outflow velocities are obtained that the fuel jets reflected by the known impact bodies still have enough energy to cause cavitation on the one opposite the impact body
To be able to produce components. This applies in particular to the control edge on the pump piston that is directly affected at the moment of the shutdown, which naturally has major disadvantages. To avoid this, for example, from GB-PS 1 215 584 or DE-OS

2 107 266 devices of the type mentioned become known in which the impact body on the
has a substantially convex surface on the side exposed to the incident discharge beam. In contrast to the designs with a concave surface, in which the impinging jet is focused to a certain extent on a focal point opposite the impact body and naturally causes an increased risk of cavitation there, the effect is that the incident discharge jet is fanned out further, with the result that the

Beam energy is distributed to a much larger surface of the opposing components, and none there Can do more damage. In particular, it can also happen at high fuel pressures and delivery rates to no cavitation phenomena at the control edges due to the control jet reflected by the impact body more to come.

The disadvantage of these known arrangements, which have an impact body in the form of a spring, which is inserted in a toroidal shape in an annular space, or in the form of a pin having a tip on one end face coaxially to the control hole, is that the jet emerging from the control hole is always on the
meets the same point and it therefore comes to a rapid wear of the impact body.

The object of the present invention is to provide a

Fuel injection pump of the type mentioned so train that the disadvantages mentioned are avoided and that in particular the risk of cavitation on the impact

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body itself eliminated or in its effects on the service life is reduced.

This is achieved according to the present invention in that the impact body, which is designed as a body of revolution in the housing of the fuel injection pump loosely by at least one that runs at an angle to the control bore Axis is rotatably held.

The surface of the impact body is therefore not exposed on one side to the high-energy discharge jet, what the service life or service life of the device is increased.

According to a particularly advantageous embodiment of the Invention, the impact body is designed as a cylindrical bolt with both ends in a transverse bore of the housing is rotatably mounted, so that a very simple manufacture and assembly of the impact body given is.

Furthermore, according to another embodiment of the invention, it is also possible that the impact body is a ball is formed, which can also be loaded by a spring.

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing .

Fig. 1 shows a partial vertical section through a fuel injection pump according to

the invention,
Fig. 2 is a section along the line II-II in

Fig. 1 and the

FIGS. 3 and 4 each correspond to one of FIG Section through another embodiment

game of invention.

The pump cylinder 1 of the not shown The fuel injection pump according to FIG. 1 receives a pump piston 2 which is movable in the direction of the axis 3 and is actuated by a drive member not shown. The pump piston has control edges 4, on, one of which (4) is the beginning and the other

(5) the end of fuel delivery through the pump piston controls.

As soon as the lower control edge 5 crosses the cross section 6 on the inside of the cylinder in the wall of the pump cylinder 1 arranged diverting hole 7 releases, is for the respective operating state of the internal combustion engine Superfluous fuel from the pressure chamber 8 of the pump cylinder and via corresponding cutouts 9 on the pump piston 2 in the control hole 7 and further Sequence diverted through an outlet 17 into the surrounding suction chamber in the pump housing.

To avoid material washout due to the relatively large kinetic energy having a discharge jet at the outer mouth of the control hole 7 opposite Avoid parts of the fuel injection pump on the side opposite the pump piston 2 the control hole 7, a baffle 14 made of cavitation-resistant material is arranged.

In the embodiment shown in FIGS. 1 and 2, the impact body 14 is a bolt formed, which is arranged perpendicular to the axis 15 of the control bore 7 in a transverse bore 16 and zylinderfc-rmig is trained. To the outflow of the diverted fuel that has already been deflected by the impact body 14 make it easier is an extended one in the area of the impact body Outlet bore provided, -rich an outflow of the diverted fuel into the surrounding suction chamber Above the impact body 14 allows.

Due to the convex surface of the impact body 14 facing the control bore 7, a flow through the control bore 7 incoming control beam fanned out, causing a concentration of the beam energy on opposite one Surfaces of components is effectively avoided. This also applies in particular to the control edge 5 on the pump piston itself, which at the moment of the opening of the cross-sectional area 6 of the control bore 7 directly opposite the impact body and, if it is flat or even concave, it is opposite

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Surface of the impact body from the reflected Straril directly would be affected.

As can be seen in particular from FIG. 2, the transverse bore 16 is for the cylindrical impact body 14 designed as a blind hole into which the bolt 10 is inserted. To avoid falling out, iat the end face of the impact body 14 opposite the end of the blind hole is attached a pin 18, which is a Prevents slipping in the axial direction. The impact body 14 has a small amount compared to the transverse bore 16 Play on so that it can rotate around its axis, which means that the cylindrical surface is not one-sided High-energy discharge beam is exposed, which increases the service life or service life of the device.

Furthermore, the variants shown in FIGS. 3 and 4 of those shown in FIGS. 1 and 2 can also be advantageous Be embodiment in which the impact body 14 is formed by a ball 10 ', which is freely rotatably arranged in a corresponding insert part 20 so that that only a certain part (here the lower part) of its surface is exposed to the control jet at the start of the control process is exposed, whereby the ball 10 'is rotated step-by-step, preferably in the direction of arrow 22. In the In the embodiment according to FIG. 4, the ball 10 'in the insert part 20' is loaded by a spring 21 and otherwise likewise installed freely rotatable. In this case, too, there is uniform wear of the entire surface of the sphere and thus a longer one Service life of the device can be achieved with simple means.

The embodiment according to FIG. 4 differs of that of Fig. 3 also in that here the horizontal axis of the impact body 14 relative to the axis 15 of the Absteuererbbohrung is offset upwards in the picture, whereby the angular momentum of the Absteuerststrahles on the ball 10 ' increase.

In all of the illustrated embodiments, on the side opposite the control hole 7, the Pump cylinder 1 is provided with a suction bore 19, which

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either not at all or after some time Shut-off hole 7 is opened by the control edge 5 on the pump piston 2, as a result of which there is no at this suction hole 19 own impact body is required. However, there are also embodiments of within the scope of the invention Fuel injection pumps possible in which both bores can be used to control, with an impact body in the second hole must be attached.

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Kr / Pi / Fr

Claims (15)

ί claims j | 1. Fuel injection pump for internal combustion engines, with f at least one pump cylinder, which has a pump piston i '' ^: ben picks up, and at least one control edge on the pump % piston that interacts with at least one I 5 Abs \, your oohrung in the wall of the pump cylinder that I controls the delivery menu, where the pump piston g opposite side of the spill hole % Impact body made of cavitation-resistant material ?; is arranged, the one facing the drainage hole 10 has convex surface, thereby ■ marked that the ■ body-shaped impact body (1A) in the housing (1) the fuel injection pump loosely by at least one running at an angle to the control hole (6) 15 axis is rotatably held. 2. Fuel injection pump according to claim 1, characterized in that that the impact body (14) as a cylindrical i shear bolt (10) is formed with his ■ '> both ends in a transverse hole (16) in the housing | _; j 20 (1) is rotatably mounted. h 3. Fuel injection pump according to claim 1, öuaurch ge I indicates that the impact body (14) as a ball (10 ') μ ,; is trained. k 4. Fuel injection pump according to claim 3, characterized in that m 25 indicates that the ball (10 ') is supported by a spring I (21) is burdened.