DE3640813A1 - Submerged centrifugal pump - Google Patents

Abstract

In a submerged centrifugal pump, an impeller wheel (20) is provided ahead of the pump intake, which acts on the one hand as a cutting device with the intake holes (16), and on the other hand as a beating device with its edges (26) along its axial length, and in addition as a pumping device. <IMAGE>

Description

The invention relates to an underwater centrifugal pump a shredding device before the pump inlet, whereby the edge of the intake opening or intake openings of the gyroscope pump is designed as a cutting edge and a rotating body with one cooperating with the cutting edge of the suction opening radial cutting edge arranged in front of the suction opening and with the pump impeller of the centrifugal pump couples.

Such a centrifugal pump is from DE-GM 85 26 769 be knows. In this known centrifugal pump is the rotating body formed as a star-shaped wheel with radial arms, wherein each radially oriented arm has a cutting edge. With the cutting edges of the radial arms is a Zer reduction of pumped through the centrifugal pump Solids or bulky goods, the suction effect and thus the promotional performance is known in this centrifugal pump, however, only through the impeller of the gyroscope pump achieved.  

Therefore, the invention has for its object a sub to improve the water centrifugal pump of the type mentioned at the beginning, that the suction effect and thus the delivery capacity of the gyroscope pump, as well as the crushing effect with simple means is further improved.

This object is achieved in that the Rotating body as conically widening towards the pump inlet Impeller designed with helical blades is. Through the helical wings of the rotary body results during the rotation of the centrifugal pump Suction effect, which is the suction effect of the impeller of the gyroscope pump supports. This way it is possible to either the impeller and thus the centrifugal pump are comparatively small to train ner than in a known centrifugal pump to a to achieve the desired suction and delivery rate, or it becomes a larger with the same design of the centrifugal pump Suction power and thus a greater delivery rate achieved. Another advantage is that this training of the rotating body, the chopping achieved with the centrifugal pump effect is not impaired. As a result of Ver The An can improve the suction behavior of the centrifugal pump part of the solids fed to the centrifugal pump considerably be increased so that there are fewer solids on the Store the pump sump. One part, namely the wing wheel, therefore also takes on the function of cutting a support function.

The wing edge of the flue has proven to be useful gelrades over its axial length in whole or in part as Form cutting edge. This creates a two stage cutting device, in addition to those with the Radially extending edge of the suction opening interacting Axially extending cutting edges are provided, the latter work without a shear bar and as free ro knives act.  

Further details, features and advantages of the invention he give themselves one in the following description Drawing shown embodiment of the Invention according to the underwater centrifugal pump. It shows

Fig. 1 shows a section through an underwater centrifugal pump ent long the line II of Fig. 2,

Fig. 2 is a plan view of the centrifugal pump in the direction of arrow Z according to Fig. 1 and

Fig. 3 shows a section along the section line III-III of Fig. 2 through a wing of the impeller.

Fig. 1 shows a housing 10 of the centrifugal pump, in which a pump impeller 12 is arranged and rotatable in the direction of arrow X. On the inlet side of the centrifugal pump, the housing 10 is closed with a cutting plate 14 , in which five suction openings 16 are formed concentrically to the axis of the pump impeller 12 , which - as can be seen from FIG. 2 - together determine the outline of a 5-leaf clover. On the outside of the insert 14 , the edge of the Ansaugöff openings 16 is formed as a cutting edge 18 . In the inflow direction in front of the suction openings 16 , an impeller 20 is arranged, which is drivingly connected to the pump impeller 12 and has three helically extending blades 22 a , 22 b , 22 c , which expand conically towards the suction openings 16 , as shown in FIG. 1 becomes clear. The diameter of the impeller on the side facing the impeller 12 corresponds to the radial extension of the suction openings 16 , or it is somewhat larger, as can be seen from FIGS. 1 and 2. The wing edges 24 lying in the radial plane are - as can be seen in particular from FIG. 3 - in the direction of rotation X of the impeller 20 on the front of each wing 22 a , 22 b , 22 c and are also designed as cutting edges. These cutting edges cooperate with the cutting edges 18 of the suction openings 16 . This interaction of the rectilinear cutting edges 24 of the blades 22 a , 22 b and 22 c of the impeller 20 with the curved cutting edges 18 of the suction openings 16 can be seen in FIGS. 2 and 3.

On its circumference, each blade 22 a , 22 b , 22 c is formed as a cutting edge 26 over its axial length. This wing edge 26 is spiral and helical. The cutting edges 26 work, as can be seen from the drawing, without a counter cutting edge as an impact tool.

The impeller 20 forms by the cutting edge 24 and 26 a two-stage cutting device, with the propeller-like wing 22 a , 22 b and 22 c of the impeller 20 at the same time a conveyor is formed which supports the suction effect of the impeller 12 of the centrifugal pump.

Claims (2)

1. Underwater centrifugal pump with a Zerkleinerungsvorrich device before the pump inlet, the edge ( 18 ) of the suction opening or openings ( 18 ) of the centrifugal pump is designed as a cutting edge and a rotating body ( 20 ) with one with the cutting edge ( 18 ) the suction opening ( 16 ) cooperating radial cutting edge ( 24 ) arranged in front of the suction opening ( 16 ) and coupled to the pump impeller ( 12 ) of the centrifugal pump, characterized in that the rotating body ( 20 ) as an impeller widening conically towards the pump inlet is designed with helically extending wings ( 22 a ; 22 b , 22 c ). 2. Underwater centrifugal pump according to claim 1, characterized in that the wing edge ( 26 ) of the impeller over its axial length is wholly or partly designed as a cutting edge.