SU1298421A1 - Torque flow pump - Google Patents

Abstract

The invention can be used for slurry pumping. The aim of the invention is to increase productivity and efficiency by increasing the speed and reducing the turbulence of the flow entering the discharge port. The impeller 6 is installed in a recess 5 made in the housing 1. The inlet 4 of the discharge nozzle 3 is displaced axially in the direction of the impeller 6 by a distance equal to the width of the blades 7 of the wheel 6. This leads to rupture of the meridian vortex formed over the entire volume vortex chamber 2, in the interface area of the nozzle 3 with chamber 2, which reduces body wear in this part. The velocity of the medium entering the nozzle 3 is determined by the angle of descent from the blade 7 at the interface. The screw path of the medium increases the flow through the nozzle 3 and reduces the turbulent losses at the outlet of the pump. 2 Il. "Sl / y; about c to

Description

The invention relates to pump engineering and can be used when pumping slurry liquids.

The purpose of the invention is to increase the productivity and efficiency by increasing the speed and reducing the turbulence of the flow entering it into the discharge nozzle.

FIG. 1 shows a free-flow pump, longitudinal section; in fig. 2 is a section A-A in FIG. one.

The free vortex pump contains a housing 1 with a vortex chamber 2, an injection nozzle 3 having an inlet 4, and a recess 5 in which an impeller 6 with blades 7 is installed. The inlet 4 a nozzle 3 is mixed axially to the side impeller 6 at a distance equal to the width b of the blades 7 of the impeller 6. Case 1 is provided with a suction head, a branch pipe 8, and the impeller with a disk 9.

The pump works in the following way.

The medium enters through the suction nozzle 8 into the vortex chamber 2 and, having received kinematic energy from the impeller 6, exits through the discharge nozzle 3.

The execution of the entrance hole 4 of the pipe 3, which is displaced from the vortex chamber 2, causes the meridian vortex formed over the entire volume of the vortex chamber 2 to break in the interface area of the discharge pipe 3 with the vortex chamber 2, and the medium enters the pipe 3 from possible speed determined by the angle of descent from the blade 7 at the place of coupling.

As a result of the interaction of the flow with the walls of the injection pipe 3 tracks

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Tori of movement of the medium has the form of a helix, which leads to an additional increase in flow through the discharge pipe 3 and a reduction in turbulent losses at the outlet of the pump. The maximum amount of fluid that can be sent to the nozzle 3 to form a stream is provided provided that its inlet 4 is shifted from the vortex chamber 2 to the width b of the blades 7 of the impeller 6. With a larger displacement in the area of the disk 9 of the impeller 6 and The nozzle 3 forms a parasitic vortex, which reduces the efficiency and, with a smaller one, the amount of medium that has a helical path when passing through the nozzle 3 decreases, which also reduces the efficiency.

In connection with the absence of a meridian vortex in the zone of the inlet 4 of the discharge nozzle 3, the wear of the housing 1 in this zone decreases.

Claims (1)

Invention Formula A free vortex pump comprising a housing with a vortex chamber, an injection nozzle having an inlet, and a recess in which an impeller with blades is installed, characterized in that, in order to increase productivity and efficiency by increasing the speed and reducing the turbulence of the flow entering the discharge nozzle The inlet of the latter is shifted in the axial direction towards the impeller by a distance equal to the width of the impeller blades. Compiled by L. Anisimova Editor A. SaboTechred I. VeresKorrektor I. Erdeyi Order 747/35 Circulation 575 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4