RU49930U1 - CENTRIFUGAL PUMP DRIVING WHEEL - Google Patents

Abstract

The utility model relates to pump engineering, can be used for transportation of sand and gravel slurries. The utility model is based on the task of increasing the total efficiency pump flexible blades. The task is achieved in that the blades along the length of the slot have; the width is greater than the width at the inlet and is located in the ledges of the disks with contours made in the shape of the back and working sides of the flexible end of the blade.

Description

The utility model relates to pump engineering, can be used in the transportation of sand and gravel slurries.

The impeller of a centrifugal pump is known, containing disks and blades made in the form of a gummed rubber-fabric frame, and each blade at the outlet in the zone of abutment to the disks is equipped with slots made for a length equal to the width of the inter-blade channel at the inlet (a.s. USSR No. 1178954, MKI F 04 D 29/24, 7/04). This design has the following disadvantages.

Due to the small mass of the flexible end of the blade (the density of the rubber fabric material is 1100-1140 kg / m ³ ) under the action of the acting forces, the blade deviates only in one direction - against the direction of rotation of the impeller. The presence of slots of the flexible end of the blade creates fluid leakage from the working side of the blade to the back. These leaks are similar to leaks in the crevice wheel seal. Leakage through the slots of the blade reduces the volumetric, and therefore the full efficiency pump.

It is known the impeller of a centrifugal pump containing disks and blades made in the form of a gummed rubber-fabric frame, each blade at the outlet in the zone of contact with the disks is equipped with slots and equipped with a sleeve with a load fixed in it. The sleeve is located in the body of the blade on its periphery (AS USSR No. 1557363, MKI F 04 D 29/24). The presence of cargo in the body of the blade, depending on its mass and mode of operation, allows the flexible end of the blade to deviate in and against the direction of rotation of the impeller. This design has the following disadvantages.

The presence of slots of the flexible end of the blade creates fluid leakage from the working side to the back, which reduces the efficiency pump. In addition, the deformation limits are limited only by the magnitudes of the forces acting

on the flexible end of the blade. These deformations can be significant, which can lead to tear-off flow around the blade, the creation of additional vortex zones, and an increase in end losses. These phenomena will also lead to a decrease in full efficiency. pump.

The technical task of the proposed utility model is to increase the full efficiency pump with flexible blades. The technical result is achieved by the fact that the impeller of a centrifugal pump containing disks and blades made in the form of a gummed rubber-fabric frame, and each blade in the zone of abutment to the disks is equipped with slots made for a length equal to the width of the inter-blade channel at the inlet and equipped with a sleeve fixed in her load. The sleeve is located in the body of the blade at its periphery. The blade along the length of the slot has a width greater than at the entrance and is located in the ledges of the disks with contours made in the shape of the back and working sides of the flexible end of the blade.

Figure 1 and 2 presents a schematic diagram of the impeller of a centrifugal pump.

The impeller contains disks 1 and blades 2, made in the form of a gummed frame 3 made of rubber-fabric material. In this case, the flexible end of each blade 2 in the zone of contact with the disks 1 has a width greater than that at the inlet, and in the disks 1 there are ledges 4 that limit the limits of deformation of the flexible end of the blade. The zone of deformation (ledge) - EVERYTHING is presented in figure 2. Each blade is equipped with a sleeve 5 with a load 6 fixed in it, while the sleeve 5 is located in the body of the blade 2 at its periphery.

When the wheels of the blade 2 rotate, depending on the ratio of the hydrodynamic forces of the incoming liquid flow and the centrifugal forces acting on the load 6 fixed in the sleeve 5, they are deflected in or against the direction of rotation of the wheel. Steps 4 made in discs 1,

limit the limits of deformation of the blades 2, and therefore, the magnitude of the hydrodynamic losses. The location of the wider end of the flexible part of the blade 2 in the ledge 4 with a minimum gap increases the resistance of the gap and reduces the flow rate of fluid leaks through the gap between the flexible end of the blade 2 and the disks 1. All this leads to an increase in the total efficiency pump with flexible blades.

The originality of the proposed technical solution lies in the fact that the flexible end of the blade has a width greater than the width of the blade at the inlet and is located in the ledges of the EVA of the disks, which limits the deformation of the flexible end of the blade, increases the resistance of the gaps between the flexible end of the blade and the wheel disks. This leads to a decrease in hydrodynamic and volumetric losses and to an increase in total efficiency. pump with flexible blades.

Claims (1)

The impeller of a centrifugal pump containing disks and blades made in the form of a gummed rubber-fabric frame, and each blade in the zone of abutment to the disks is equipped with slots made to a length equal to the width of the inter-blade channel at the inlet and equipped with a sleeve with a load fixed in it, while the sleeve located in the body of the blade on its periphery, characterized in that the blade along the length of the slot has a width greater than at the entrance and is located in the ledges of the disks with contours made according to the shape of the back and working sides of the flexible ontsa blades.