DE2233805A1 - FUEL INJECTOR - Google Patents

Description

R. 9βθ
6.7.1972 Su / Kb

Attachment to

Patent and

Utility model registration

ROBERT BOSCH GMBH, 7 Stuttgart 1 Fuel injector

The invention relates to a fuel injector for Internal combustion engines, with the closing spring loading the valve needle and a spring plate arranged between the closing spring and the valve needle, which has at least one on the nozzle needle side indirectly has the nozzle needle frictionally touching pressure port,.

In almost all injection nozzles that work with a helical spring, the compression springs have certain frontal angles over time Stroke deviations on. This lead to forehead deviation deviations

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309884/0264

Robert Bosch GmbH 'R. 96O Su / Kb

Stuttgart

to the fact that these coil springs on or with the spring plates move out of the central position and thus act on one side. This one-sided burden then leads to either the The spring rubs against the wall of the spring chamber and / or that the pressure pin of the nozzle needle facing the spring breaks off. Another disadvantage of the frictional compression spring is that the nozzle puffs poorly.

The invention is based on the object of developing an injection nozzle which does not have these disadvantages.

This object is achieved in that the Pressure port is at least longitudinally convex and this section is linearly guided in a bore is, wherein advantageously the pressure port that of the spring The facing pressure pin of the nozzle needle is replaced and the contact area between the pressure port and valve needle is as small as possible is.

According to an advantageous embodiment of the invention, the bore is either arranged in the nozzle holder, or it is the Bore provided in an intermediate plate arranged between the nozzle holder and the nozzle body, which is also used as The nozzle needle is used to limit the stroke.

Two embodiments of the subject matter of the invention are shown in the drawing and will be described in more detail below explained. Show it:

Pig, 1 an injection nozzle with a nozzle holder that guides the spring plate; FIG. 2 shows an injection nozzle with a spring plate guide in the intermediate plate.

In the case of an injection nozzle, there is a nozzle body 1, which receives a valve needle 2, with a nozzle holder 3 through a union nut

309884/0264

Robert Bosch GmbH R. 960 Su / Kb

Stuttgart

connected with each other. In the nozzle holder 3 is in a spring space a helical spring 6 is arranged, which acts on the valve needle 2 via a spring plate 7.

The spring plate 7 has, on its side facing the valve needle 2, a pressure port 8 which has a convex section 9. This section 9 is guided in a bore 10 so that there is only a linear contact between the surface of the spherical section 9 and the surface of the cylindrical bore 10. In this way it is prevented that one-sided spring forces are converted into bending stresses at the pressure port 8 and that undesirably high frictional forces arise in the bore 10. The pressure port 8 replaces the pressure pin of the nozzle needle, which is usually present in nozzles and faces the spring, the contact area between the pressure port end and the nozzle needle being relatively small. "

On der.Mantelfläche the nozzle needle 2 is just before the. Spring 6 facing the end of the nozzle needle an annular groove 11 is arranged, which is accessible even when the valve is closed, ie the rest position of the valve needle 2.

As shown in Fig. 1 is on the end face 12 of the nozzle body a puncture towards the bore 13 receiving the nozzle needle 2 provided, can be engaged by a tool in the annular groove 11 via the dismantled nozzle body 1 to the To be able to pull the nozzle needle 2 out of the nozzle body 1. the Bore 10, in which the spherical section 9 of the pressure port 7 is guided, is arranged in the nozzle holder 3.

According to FIG. 2, between the nozzle body 1 and the nozzle holder 3 is a Intermediate plate 15 arranged, in the central bore 10 of the convex Section 9 of the pressure port of the valve disk 7 is performed. the the valve needle 2 receiving bore 13 has an enlarged section for the engagement of the dismantling tool of the valve needle

309884/0264

Claims (5)

Robert Bosch GmbH · .. R. 960 Su / Kb Stuttgart claims 1.) Fuel injector for internal combustion engines, with the valve needle load-bearing helical closing spring and between the closing spring and the valve needle, the spring plate on the nozzle needle side has a pressure connection at least indirectly contacting the nozzle needle in a force-locking manner, characterized in that the pressure connection (8) is formed crowned at least longitudinally and this Section (9) is linearly guided in a bore (10). 2. Fuel injection nozzle according to claim 1, characterized in that that the pressure port (8) replaces the pressure pin of the nozzle needle (2) facing the spring (6). 3. Fuel injection nozzle according to claim 2, characterized in that that the contact area between the pressure port (8) and valve needle (2) is as small as possible. (H fuel injection nozzle according to claim 1, characterized in that that the bore (10) is arranged in the nozzle holder (3). 5. Fuel injection nozzle according to claim 1, characterized in that the bore (10) is provided in an intermediate plate (15) arranged between the nozzle holder (3) and the nozzle body (1), which at the same time serves to limit the stroke of the nozzle needle (2). 3Q9884 / 0264 ■ Le e rs e i t β