DE428882C - Ejector - Google Patents

Description

Ejector. There are already ejectors with ring-shaped steam jets common, in the case of which a pipe is provided, but they are only for the Suitable for transporting small amounts of air or gas in a high vacuum.

The steam consumption turned out to be in relation to the conveyed air or the amount of gas so large that it is economical to work with large delivery rates was impracticable.

This high steam consumption is due to the fact that it is with the existing Devices was not able to accurately center the tube in the housing to obtain.

It follows that the outer wall of the inserted pipe can occur with the inner wall of the housing in contact, so that the steam passage is inhibited at these contact points is correspondingly increased while on the opposite side of the nozzle drying the width of the Off. The consequence of such a deviation is, of course, that no closed steam cone can be formed, so that the effect of the ejector is inadequate or incomplete. As a result, the steam consumption was very high.

The present invention aims to limit this steam consumption with ejectors for large flow rates and achieves this result through precise centering the inserted tube in the housing and through; Extension of the surface contact between the propellant and the amount of gas or air to be conveyed.

According to the invention, the outer wall of the inserted pipe and run the inner wall of the housing is concentric and parallel for a considerable length up to the point of the smallest cross-section. The annular space between the said walls is divided into a circle of channels by radial ribs, which extend in the direction of the axis. The ribs can also be helical be arranged. The tube is centered in the housing by said ribs. Reliable centering is thus achieved under all circumstances while a longitudinal displacement of the pipe is possible.

Furthermore, according to the invention, the outer pipe wall or the inner Housing wall or both be provided at the mouth with grooves in the direction of the axis. These give the propulsion jet a corrugated surface when it emerges, so that a created large contact area between the propellant and the substance to be conveyed will.

The cross-section of the grooves can gradually move towards the opening widen towards the nozzle. Furthermore, in this direction with the same width The depth of the grooves will gradually grow. Such an ejector according to the invention is illustrated, for example, in the accompanying drawing.

Fig. I shows a longitudinal section of an ejector.

Fig. 2 shows another embodiment also in longitudinal section.

FIG. 3 is an end view of the nozzle of FIG. 2.

Fig.q. shows on a larger scale part of the nozzle in the diagram.

Fig. 5 also shows a longitudinal section through on a larger scale a groove of the nozzle. In the design according to Fig. I, the outer housing i is the ejector provided with an inlet 2 for the working substance (steam). Channel 2 leads to one Annular space 3 in the cylindrical housing q .. In the housing q. a tube 5 is concentric used. Between the inner wall of the housing q. and the tube 5 remains an annular one Gap 6 formed by radial ribs 7 in a circle from in the direction of the axis extending channels 8 is divided, which, if desired, also arranged radially could be.

The ribs 7 run through the annular space 6 in such a way that that the tube 5 shower is centered on these ribs, which are made in one piece with the housing q. or the tube 5 can be made; but the ribs can also alternate with the housing q. and be connected to the pipe. The tube 5 is at g through the Housing carried and is sealed against the vapor space by glands io, ii. The gas or air to be conveyed is admitted at two points, and although centrally through the interior of the tube 5 through openings 12, which are at the rear End of the pipe are arranged and to which the gas or air through the flange inlet 13 has access.

The part of the gas to be conveyed which does not pass through the opening 12 flows, enters the annulus 14 and comes into contact with the outer surface the cone of steam emanating from the end of the nozzle. At the front end of the case i a flange 15 is provided through which the ejector housing as usual with a conical ejector tube 16 is connected. At the rear end is the ejector housing closed by a cover 17.

It is clear that with the embodiment described a very precise Centering of the annular nozzles is achieved. The housing 4 expands inside conical at 2o from point 18 of the smallest cross section to the mouth ig, while the outer surface 21 of the tube 5 gradually decreases.

Fig. 2 shows another embodiment in which the between the point of the smallest cross section 18 and the mouth ig lying part with longitudinal grooves 22 is provided. Said longitudinal grooves are made uniformly wide while the depth gradually grows towards the mouth of the annular nozzle. The one Nozzle wall is made in the same way as in Fig. I, d. H. with a smooth surface. However, according to the invention, the inner walls of the slot instead of the outer or both can be provided with similar grooves.

Due to the special shape of the nozzle walls, the outflowing Jet of the working substance (steam) creates a wave-shaped surface and thus forms one large contact surface with the gases to be conveyed. This arrangement will the usefulness of the promotion increased considerably, so that for one to be promoted large amount of gas or air the steam consumption, d. H. the working substance, proportionate is low.

Claims (3)

PATENT REQUIREMENTS: x. Ejector, in its housing a for flow of the agent to be sucked in serving pipe is inserted and the propellant nozzle from the Annular space is formed between the housing and the pipe, characterized in that that before the smallest cross section (18) of the annular nozzle in the parallel and concentric space (6) between the housing (q) and the pipe (5) axially extending ribs (7) are provided which hold the tube (5) in the housing (q.) center. 2. Ejector according to claim i, characterized in that on the Mouth the outer wall of the tube (5) or the inner wall of the housing (q.) Or both are provided with grooves (22) extending in the direction of the axis, which the give the emerging steam jet a wavy surface. 3. Ejector according to claim i and 2, characterized in that the cross-section of the grooves gradually counter the mouth grows, expediently, by the depth of the Grooves gradually increasing towards the mouth.