SU1041762A1 - Guide-vane pump channel - Google Patents

Description

o 1 The invention relates to a pump engineering design, namely to the design of a blade guide apparatus of the price of a robust pump. A known pumping apparatus, which contains end walls and stationary vanes located between them. The main disadvantages of the guide apparatus are low pump efficiency, high noise level and radial dimensions. Closest to the present invention is a pump guide apparatus containing end walls and located between them with the formation of interscapular diffuser canal lobes with curvilinear back and front surfaces 2}. However, the known guide apparatus also has an insufficiently high pump efficiency, high noise level and radial dimensions. The purpose of the invention is to increase the pump efficiency, reduce the noise level and decrease the radial dimensions of the apparatus. This goal is achieved by the fact that in the pump guide apparatus containing end walls and located between them with the formation of interscapular diffuser canal loops with curvilinear back and front surfaces, said end walls are located in the zone bounded by the inlet edges of the blades and coils The cut surface of the interscapular channels, and the front surface of each; jupki located in the zone of slant slice, has in the radial section the shape of convex curves with a variable curvature, increasing in the direction of audio stream, and variable angle to the machine axis at their point of intersection with the end walls, uvelichivayuschimis from O to 90. In FIG. 1 shows a centrifugal pump with a guide apparatus of the proposed construction; in fig. 2 - section aa in figure 1 ;; in fig. 3 rask 622 cut bb in fig. 2; in fig. k is a section bb of FIG. 2; in fig. 5 is a section of YYD in FIG. 2; in fig. 6 shows the DDD in FIG. 2. The pump guide vane contains end walls 1 and located between them with the formation of interlobe diffuser channels 2 blades 3 with curved rear and front surfaces t and 5, respectively. Moreover, the end walls 1 are located in the zone bounded by the edges 6 of the blades 3 and the oblique section of the interscapular channels 2, and the front surface 5 of each blade 3, located in the area of the oblique section, has in the radial sections the shape of convex curves 7 with a variable curvature increasing in the direction flow movements, and a variable angle of inclination to the axis of the apparatus at the point of intersection with the end walls, increasing from 0 to. The guide vane operates as follows. The flow of the working medium flows over the curved blades 3 and, the passage through the interscapular diffuser channels 2, expands. This reduces the velocity head and increases the pressure. Due to the location of the end walls 1 only in the zone bounded by the input edges 6 of the blades 3 and the oblique cut of the interscapular channels, and also due to the profile of the front surface 5 having the shape of convex curves 7 with variable curvature in radial sections not only in the radial, but also in the axial direction. In this case, the separation of the flow at the outlet of the interscapular channels 2 is eliminated, the volume of the guiding apparatus is more fully used, which ensures a decrease in its radial dimensions. Elimination of flow separation at the exit from. The guide also reduces noise and increases pump efficiency.

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Claims (1)

A PUMP GUIDE DEVICE containing end walls and located between them to form the intermediate channels, and the front surface of each blade located in the oblique section zone has radial sections. the shape of convex curves with variable curvature increasing in the direction of flow and a variable angle of inclination to the apparatus axis § at the point of intersection with the end walls _t increasing from 0 to 90 °. low efficiency of the pump, noise and radial gabablizim to the proposed