DE435336C - Impeller for centrifugal pumps and fans - Google Patents

Description

Impeller for centrifugal pumps and fans. Subject of the present invention be. meets a new impeller for single or multi-stage centrifugal pumps and blowers for axial single and radial. Exit of the conveying means with constant tangential blade channel cross-sections.

Well-known wheels of this ax show more with their. Or less large faulty construction a very low degree of efficiency, which is out of proportion is related to the force applied. In the case of a theoretically correct current runout, it would have to be all liquid particles pass through the path given by the blade body. and participate equally in the energy turnover. However, this is in the so far known impellers not achieved, since the length of the driving blade surface flowing liquid particles absorb more energy than those further inside flowing, which differ considerably 'from the theoretical direction of movement. Attempts have also been made to achieve a better one through full internal and external exposure To achieve current conduction, whereby however the inlet and outlet widths in no correct Are related to each other, so that this also causes energy losses. On the other hand it is theoretically directly wrong to give the wheel blades an outward widening To give cross-section, as this results in an unintentional loss of pressure and Energy expenditure is given.

The invention is intended to avoid all of these inconveniences.

In the drawing, the subject of the invention is for example shown, namely: Fig. i the new impeller with housing in section, Fig. 2 the new impeller in plan view, Figure 3 an enlarged partial view of the impeller.

The example arrangement, device and mode of operation is as follows: According to the invention, the new centrifugal pump or the centrifugal fan consists of the impeller a, intake port b, housing c, the. Outlet or pressure nozzle d and the bearing axis e.

In order to ideally carry out the current conduction of the water threads and at the same time Pushing the resistances down to the lowest degree is the blade cross-section formed after the projection of a moving drop of water (Fig. 3a and 3b), whereby a large energy saving is achieved compared to the known will. This gives the blades the ideal cross-section, .the that water physically shows itself. At the axial entry into the blade channels shows the water a direction of fall against the inlet openings, which the water flow deflect by 90 °. Since the drop is downwards or downwards according to the direction of flow. its tip points upwards, this is the inlet cross-section of the blade channels formed into a standing teardrop shape (seen perpendicular to the plane of the impeller). With further penetration into the channel, the influence of the centrifugal force becomes noticeable, which in turn turns the thread of water by 90 °. According to this streamlining while taking into account the effect of centrifugal force, this is the course of this Curve for the twisting of the drop cross section to be determined or given. There after further penetration into the canal, the movement of the water thread in the plain of the impeller takes place, the teardrop shape is now also in a corresponding Position so that the tip of the drop points in the direction of rotation of the impeller shows (Fig.3b). The actual speed changes according to the increase in speed Teardrop shape; the drop becomes shallower and longer.

To achieve high water pressure, the impeller can also be used as a Step wheel can be formed in a known manner, the cross-section of the individual Levels. Decreases accordingly.

Claims (1)

PATENT ANSPRUCII: Impeller for single or multi-stage centrifugal pumps and blowers for axial inlet and radial outlet of the conveying means with constant tangential channel cross-sections, characterized in that these have the shape of drops, the point of which is in the inlet cross-section, axially towards the suction side and by twisting the duct. nals in the outlet cross-section points in the direction of rotation of the impeller.