DE532013C - Fluid-controlled injection nozzle for internal combustion engines - Google Patents

Description

Liquid-controlled injection nozzle for internal combustion engines The invention relates to a liquid-controlled injection nozzle for internal combustion engines, whose Needle in front of the seat with a contact surface for the fuel pressure and behind it is provided with a pin which has an outlet gap between itself and the nozzle body releases.

In the known pin nozzles of this type, the one located at the end of the needle is The pin is usually cylindrical or conically tapered towards its free end. From nozzles with such pins on the needle, the fuel squirts as a proportion closed jet with only little lateral scattering and formation of steam. In many cases, however, it is desirable that the fuel be in the vicinity of the Nozzle orifice is resolved to a greater extent than was previously possible with spigot nozzles was.

To also in such cases where stronger resolution of the injecting Fuel is desirable to get by with spigot nozzles, according to the invention ensured that by increasing the cross section continuously or intermittently of the pin towards its free end, the cross section of the between the nozzle body and the exit gap formed by the needle pin decreases during the needle stroke and the angle of the outer jet cone jacket changes during the needle stroke.

On the drawing are in Figs. I to q. four embodiments of the subject matter of the invention shown in longitudinal section, with for each example the nozzle needle is indicated in three different positions, namely in the final position, in a middle position and in the opening position.

In all four examples, the nozzle needle with i is the contact surface for the fuel pressure with 2, the mouth edge of the nozzle housing with 3 and the Pin on the nozzle needle with q. designated.

The first example according to Fig. I shows a nozzle with a needle pin carries at its free end a collar, the diameter of which is only a small one is smaller than the diameter of the outlet hole in the nozzle body. Towards the end of the With the needle stroke, the collar enters the exit hole, like the bottom picture Fig. i illustrates, and reduces the cross-section of the exit gap.

The second example according to Fig. 2 differs from the first in the The main thing is that in the scope of the collar attached to the needle pin 4 inclined grooves are provided, which, however, intact the extreme end of the shoulder collar permit. As soon as this extreme end when lifting the needle into the exit hole of the nozzle body enters (bottom picture in Fig. 2), the cross-section is reduced of the exit gap by an amount that corresponds to the cross-section of all grooves. In the process, the shape and the scattering angle of the ejecting fuel jet also change. At the Third embodiment according to Fig. 3, the pin 4 is uniformly outward conically expanded. The exit cross-section is reduced over the whole Needle stroke.

While in the examples described so far on the nozzle body a sharp mouth edge 3 is provided, is according to the fourth embodiment Fig.4 the mouth edge in the nozzle body rounded. The pin 4 is with a fillet-like puncture provided so that it has its largest diameter at his has a free end. As in the third example, the exit cross-section is reduced here over the entire needle stroke.

Instead of the grooves in the shoulder as in the second example at an angle and to be arranged parallel to each other, they could also cross or helically get lost.

Claims (5)

PATENT CLAIMS: i. Liquid-controlled injection nozzle for internal combustion engines, its needle in front of the seat with an application surface for the fuel pressure and behind it is provided with a pin, which is between itself and the nozzle body leaves an exit gap free, characterized by a continuous or intermittent resulting increase in cross section of the pin towards its free end, such that the gap cross-section decreases with the needle stroke and the angle of the outer jet cone jacket changes during the needle stroke. 2. Injection nozzle according to claim i, characterized in that that the pin on his. free end carries a shoulder collar, which during the opening stroke at least partially into the nozzle body (Fig. i and 2). 3. Injection nozzle according to claim 2, characterized in that the shoulder collar on its cylindrical surface is provided with grooves or helical channels which, however, are expediently only led up to close to its free end (Fig. 2). 4. Injection nozzle according to claim i, characterized in that the pin is a truncated cone is formed, the largest diameter of which forms the free end of the pin (Fig.3). 5. Injection nozzle according to claim i, characterized in that the pin between is constricted at its ends in the form of a deep throat.