DE397265C - Impeller for centrifugal compressor - Google Patents

Description

Impeller for centrifugal compressor. That in the wheel channels of centrifugal compressors The means to be condensed is distributed irregularly there, because it strives to to detach from the canal walls, creating a vertebral wedge. A certain Another difficulty is that only a few blades can be accommodated at the wheel inlet there are, on the other hand, a lot of blades at the wheel outlet for good guidance would be desirable. A well-known solution is that not all shovels go down To guide the inside of the wheel. However, it is not possible to use one for all delivery rates To obtain the same filling of the channels, so that the wheel efficiency deteriorates.

According to the invention, several blade rings are concentrically one above the other angCorded and annular gaps left between each two wreaths. This creates short vane channels with annular spaces in which the bundles of rays are located can reunite before the medium to be compressed into the next wheel rim comes.

On the basis of the drawing, which is shown schematically in Fig. R in view, with enlarged Details in Figures a and 3 are examples of embodiments of the invention shows, this is explained in more detail, for the sake of simplicity as a flow medium air is always assumed.

The blade rings b, c, d sit concentrically on top of each other on a wheel disk a (Fig. F) from the inside to the outside. An annular gap e or f is left free between every two blade rings, the purpose of which can be seen in Figs.

In Fig. Z the formation of vortex wedges g can be seen by detachment of the bundles of rays 1a at i from the channel walls or blades b. When the air comes to the blades c, the bundles of rays have already come together as a result of the wide gap e in such a way that the vortex wedges, if a separation should still take place in these short blade channels, have disappeared by the entrance of the next blade ring c. If the blades of one ring are offset slightly from those of the other, as shown in Fig. 3, the gap between the blade rings can also be smaller than would be necessary to collect the stream filaments, because the offset not only prevents the formation of wedges , but also ensures that the wedge is lost within the blading. In Fig. 3 r "the radius of the outer reach of the vortex wedges g is exactly the same as the corresponding radius r, in Fig. 2, likewise the radius ra of the outer boundary of the blade ring b is the same in both cases; only the radius r has been changed $ the inner boundary of the blade ring c, insofar as the blade ring c according to Fig. 3 has moved closer to the blade ring b, i.e. the annular gap e is kept much smaller than in Fig. 2. The vertebral wedges come as close as possible to the center of the blade channels of the ring c and gradually lose themselves.This effect can be further enhanced by an appropriate increase in the number of blades.

Claims (2)

PATENT CLAIMS: i. Impeller for centrifugal compressors with several concentrically superimposed blade rings, each with a free annular gap between two rings, characterized in that the radial gap heights are dimensioned in such a way that, when the medium to be compressed is wedge-shaped, the resulting bundles of rays collect again before entering the next ring . 2. Impeller according to claim i, characterized by an offset of the blades from one ring to the other, such that the irregularities in the flow of the previous blade channel are compensated as possible in the next.