DE2307060B2 - Submersible pump - Google Patents

Description

The invention relates to a submersible pump with support and delivery pipes between the engine and the pump part, in which the impeller of the pump part, which is designed as an open radial impeller, is connected to one another the support and conveyor pipes connected and provided with a central inlet housing surround and between the open radial wheel and the housing wall provided with the inlet opening is an axial one There is a gap.

Such a pump is known from DE-OS 16 53 671. Immersion pumps are according to the DIN standard 5440 produced for several immersion depths. These different immersion depths require either cast parts of different lengths or support and delivery pipes of different lengths between the actual Pump part and the drive motor. Since in such pumps narrow impellers with a relatively narrow Gap between the impeller and the pump housing are used, the housing parts of different lengths must be used or tubes are machined to maintain the necessary tight tolerances. this requires a relatively high amount of work.

From the "Schweizerische Bauzeitung" 1968, pages 575-582, it is known that during investigations showed about the influence of the lateral clearance of centrifugal pumps with an impeller open on one side, that the assumption, according to which the loss flow rate and the loss head are approximately proportional to the Change gap clearance, only applies in the area of small clearances An extension of the tests over the usual gap clearances resulted in the surprising fact that the drop in performance was a limit > reached, from which further enlargement has no effect

The invention has the task of designing a submersible pump so that the axial gap between Impeller and housing can be relatively large,

ι »without a significant loss of efficiency.

The object is achieved according to the invention in that the width of the gap is equal to or greater than that 0.03 times the outer diameter of the impeller and the

r. Throughput coefficient in the range of specific speeds 10 to 50 increases linearly from 0.02 to 0.06. The meridian velocity C ₂ ″ is calculated from the ratio of the nominal flow rate Q to the area (f), which is the product of the sum of the

2 «blade spacing (a) and the sum of the effective impeller width {b 1) and width of the gap results

Due to the relatively large axial gap between the impeller and the housing, one is very much unnecessary precise machining of the parts to be joined with

r> tight tolerances.

In the drawings, an embodiment of an immersion pump according to the invention is shown, wherein

Fig. 1 is a longitudinal section through the entire pump and the

i »F i g. 2 and 3 show a longitudinal section and a plan view of the impeller
demonstrate.

1 with the motor part and 2 with the pump part. Both parts are through a support tube 3 and

J) a conveyor pipe 4 connected to one another. The gap s between the impeller and the pump housing is relatively large, as a result of which machining of the tubes 3 and 4 and the parts receiving them with close tolerances is not necessary. The pipes are

4 (i in the motor and pump part, which for example from Die or injection molded are made, fastened with an interference fit.

In the F i g. 2 and 3 denote a the blade spacing, b] the effective impeller width (= blade width),

4i 6 the effective impeller width plus the gap width s and c / den Impeller diameter. Due to the design of the impeller according to the invention given above, a large width s can be chosen for the gap without the efficiency of the pump being compared to a

^r ) () those with a small gap significantly worsened.

1 sheet of drawings

Claims (1)

Claim: Immersion pump, with support and delivery pipes between the motor and the pump part, in which the impeller of the pump part, which is designed as an open radial impeller, is surrounded by a housing connected to the support and delivery pipes and provided with a central inlet opening, and between the open radial impeller and the with the housing wall provided with the inlet opening, characterized in that the width (s) of the gap is equal to or greater than 0.03 times the outer diameter of the impeller (d) and the throughput coefficient f-jp-J is in the range of specific speeds (n _q ) from 10 to 50 from 0.02 to au! 0.06 increases linearly.