DE948350C - Injector, ejector or other similarly usable jet devices - Google Patents

Description

Injector, ejector or other similarly usable jet devices It is well known that 'the power of a jet apparatus, which is used as an injector or ejector finds, considerably increased if there is a zone in the path of the ray high negative pressure.

Furthermore, it is known that if you are at the exit of a liquid jet from a gap this, for example, only on one side with a protruding one A bent lip provides a suction along this lip and the jet of liquid is deflected towards the lip.

The invention now relates to injectors, or ejectors other, similarly usable blasting devices and consists in the fact that in the way of the flow medium passing through the converging and diverging zones of the apparatus a wall is laid, in whole or in part, by an extension of the lip or lips of one or more narrow or wider crevices is formed, which in open near the narrowest point of the converging zone, in such a way that the Fluid escaping from the crevices is passed over the wall and along this one Zone of increased negative pressure is generated, which creates an additional suction effect on the Flow medium exerts.

Such a jet apparatus can, for. B. to divert the exhaust gases from the cylinders of an internal combustion engine or otherwise for rules serve the amount of a fluid to be aspirated.

Exemplary embodiments of the invention are shown in the drawing.

Fig.> I to 4 are sectional views of embodiments according to the invention; Fig. 5 to 7 show possible applications of the jet apparatus according to the invention.

The embodiment according to Fig. I is a suction and jet pumps usable nozzle i, the double-conical inner wall composed of zones 2, 3 and 4. The inner wall converges in zone .2 more and more up to zone 3, which has the smallest diameter; then diverges the wall again in zone 4. In the nozzle channel 15 there is a guide body 6 by means of the webs g held. The outer wall 7 forms the outer lip of a gap B. In the guide body 6 there is a chamber io which is used to receive a fluid, e.g. B. of hydraulic fluid, serves. The chamber io is connected to the gap 8 by means of a channel i i. The outer wall 7 adjoining the gap 8 acts as the one across the gap opening protruding lip, along which a negative pressure zone is created and, accordingly, a Suction in the direction of arrow F is generated.

In the embodiment according to Fig. 2, the gap 8 opens between the Zones 2 and 3 of the inner wall, near the narrowest point of the nozzle channel 5, according to inside out. The zone 3 acts here as the one protruding beyond the mouth 8 ″ of the gap 8 Lip on which the negative pressure zone is formed.

Fig. 3 shows an embodiment in which the embodiments according to Figs. i and 2 are combined. There are two gaps 8, making it two There are negative pressure zones, one along the wall 2 and the other on the wall 7; the effects add up.

Fig.4 now illustrates the mode of operation. By narrowing the Nozzle at the point 3v is the flow rate of the introduced under pressure Flow medium increases, whereas its pressure decreases. At the narrowed point is the gap ii. The wall parts or lips adjoining the gap opening are unbalanced. As a result of the rounded zone iia, a negative pressure is formed at 12, which increases the flow of the fluid. In the double-dashed line Zone 12 is negative; which is significantly larger than the one which would correspond to the constriction at 3. The conveying effect of the through the gap il entering fluid is much larger. This device can e.g. B. in carburetors for engines to improve the fuel-air mixture use.

The invention can, as Fig. 5 shows, also for cooling the under a Hood arranged internal combustion engine are used. So z. B. are the radial engines on aircraft mostly disguised by spherical caps 14 that extend from the engine block a slot 15 are separated. This slot 15 allows the exit of the cooling air, which occurs at the opening 16 in the direction of arrow f.

Up to now, no device was known which made it possible to do this Flow of cooling air depending on the speed of rotation of the motor or to regulate its useful power. For this purpose, the cylinders 17 are equipped with exhaust lines i8 which gradually change from a cylindrical shape into flat end pieces or Skip nozzles. These exhaust lines open behind the hood at ig. the Openings 2o of the exhaust lines i8 form the gaps that continue in lips 21. The lips 21 can form walls of the engine frame or the aircraft frame.

A negative pressure zone is created along these protruding lips 21, through which the flow of cooling air through the hood in the direction of FIG. 16 on 15 is promoted. The negative pressure is dependent on the amount of the Cylinders 17 escaping exhaust gases.

The subject matter of the invention can also be used directly for the drive are, in which case the vehicle or aircraft equipped with a hood or shell in which an approximately ellipsoidal guide body is arranged. The diameter of the The guide body increases over a short length from the front to the rear and then to the rear to from. The guide body, together with the shell, then forms the nozzle of a jet pump. The guide body is provided with a chamber in which the working fluid is stored, generated or supplied. The fluid flows through a gap over a lip adjoining the gap opening and over that protruding lip, which merges gradually or in a uniform curve into the ellipsoidal envelope wall. The gap opens out near the narrowest point of the jet channel.

The mouth can also advantageously be moved slightly forward (see Fig. 6). The gap runs at an acute angle between o and go ° to Direction of movement of the vehicle.

Experience has shown that the negative pressure on the wall of the ellipsoidal body is generated by the gas emerging from the gap such is that enough air is sucked in to the behind the jet apparatus desired print. But you can also move the gap in a different direction give, provided that the wall of the lip protruding over the gap opening merges backwards into the ellipsoidal wall. With the right choice, behind prevails the jet apparatus atmospheric pressure; the greatest effort then occurs.

In Fig. 6, a cylindrical hood c is attached to the vehicle a by means of struts b, in which an ellipsoidal guide body e is embedded by means of webs d. In this guide body, as Fig. I shows, there is a chamber from which a channel leads to the gap g. The medium flows out of the chamber into the gap, the central axis i of which runs at an angle a to the direction of movement according to arrow F. The gas emerging from the gap g flows over the wall 1a, which protrudes far beyond the opening of the gap. As described above, a negative pressure arises in zone I, which is generated by the gases emerging from the gap when those gases reach the narrowest point between the guide body and the inner wall of the hood. The air flows out of the chamber with the gas in the direction of the arrows in. The pressure in the chamber is equal to normal air pressure.

In the embodiment according to Fig. 7, the gap g opens at one point which is relocated to the rear with respect to the direction of the arrow F. the Mouth j is therefore behind the point c of the guide body e, at which this the has the largest diameter. The negative pressure is generated on the elongated lip 1a. The zone of negative pressure runs backwards on the ellipsoidal guide body e. Because the negative pressure at h is very large, the neighboring amount of air in the hood c is sucked in and escapes to the rear, as described in connection with Fig. 6.

The field of application of the invention is not limited to that described Embodiments, but these are as examples of a diverse range of applications to be assessed for blasting devices of all types.

Claims (5)

PATENT CLAIMS: i. Injector, ejector or other similar usable Jet apparatus, characterized in that in the path of the converging and a wall (7) is placed in the flow medium passing through the diverging zone of the apparatus is formed in whole or in part by an extension of the lip or lips of a or several narrower or wider gaps (8) is formed in the vicinity of the the narrowest point of the converging zone open out, in such a way that the gaps escaping fluid passed over the wall (7) and increased a zone along this Negative pressure is generated, which has an additional suction effect on the flow medium exercises. 2. Jet apparatus according to claim i, characterized in that the generation the suction negative pressure certain and the promotion of the fluid causing tight Gaps in or near the narrowest point of the jet apparatus passage. 3. Jet apparatus according to claim i, in which the conveyance of a fluid through the generation of a negative pressure on one side and an overpressure on the other side is secured, characterized. that in a hollow cylindrical or annular element, an elliptical insert body is provided, the Outer wall together with the inner wall of the cylindrical element a constriction of the beam path and a part of the surface of the insert body as Extension of a lip protruding over the gap opening is effective, over which Liquid emerging from the gap flows, creating a zone with negative pressure generated, which increases the promotion of the fluid. 4. Jet apparatus according to the claims i to 3, characterized in that the axis of the column is between 0 and 9o ° includes lying angle with the direction of movement. 5. jet apparatus according to claims i and 2, characterized in that the gaps are in the vicinity of the narrowest point of the flow channel. Considered publications: German patent specifications No. 315 212, 592 772, 652 986, 402 237.