SU1177544A2 - Variable capacity double-entry pump - Google Patents

Abstract

1. ADJUSTABLE CENTRIFUGAL PUMP OF BILATERAL INPUT on auth.St. No. 1141217, characterized in that, in order to increase the pump efficiency by reducing energy losses due to disk friction, it is equipped with annular discs mounted with a gap relative to each other at the periphery of the drive disc, while the annular discs are made with different outer diameters gradually increasing towards the middle of the drive disk, and in the latter direction, channels are inserted that indicate the pump suction areas with its periphery at the place of installation of the disks. 2. A pump according to claim 1, characterized in that in the region of the minimum cross section of the retraction in the housing, a cut is made under the annular disks, the contour of which bends around the latter by their outer diameters. 3. The pump according to claim 1, distinguished by the fact that in the minimum cross section of the outlet in the housing there are grooves for each annular disk, and the depth of the grooves is different and corresponds to the outer diameter of the discs.J ate | 4:

Description

The invention relates to hydraulic engineering, can be used in the designs of two-way centrifugal pumps to control their characteristics and is a 5 improvement of the device according to the author. St. No. 1141217.

The purpose of the invention is to increase the efficiency of the pump by reducing the energy loss to disk friction. .ten

FIG. 1 schematically shows the construction of a pump; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a variation of section B-B in FIG. 2 with a cut; in fig. 4 is a variation of the section BB 15 in FIG. 2 with grooves.

An adjustable centrifugal double-inlet pump includes a housing 1 with an outlet 2 fitted with diaphragms 3, a hollow shaft 4 mounted on the last 20 double-inlet impeller with driving and driven disks 5 and 6 and blades 7, a control member 8, rods 9 located in the cavities 10 of the shaft 4, and the rods 11, which are connected to the diaphragms 3, while the rods 11 and the rods 9 are kinematically connected with each other and with the governing body 8; grooves 12 are made on the drive disk 5 on both its sides, displaced around the circumference relative to each other, the blades 7 mouth They are axially displaced in the latter and connected to rods 9 by elements 13. In shaft 4, there are holes 14 in which the elements 13 move, and rods 9 are installed rotatably in bearing supports 15 t gami 16. The pump is provided with annular disks 17, Q mounted with a gap relative to each other on the periphery of the front disk 5, while the annular disks 17 are made with different outer diameters, gradually increasing in the direction towards the middle of the master disk 5, and in in the afternoon channels are executed. 18, informing the suction areas 19 and 20 of the pump with its periphery in the place of installation of the discs 17. In the region of the minimum cross section

the outlet 2 in the housing 1 is made a cutout 21 under the annular disks 17, the contour of which goes around the latter in their outer diameters. Instead of the specified cutout 21 in the housing 1 can be made grooves 22 for each annular disk 17, and the depth of the grooves 22 is different and corresponds to the outer diameter of the disk 17.

The pump works as follows.

The pumped liquid enters the pump and is pumped by the blades 7 through the inter-blade channels into the outlet 2. In addition, the pumped liquid passes through the channels 18 in. drive 5 to its periphery. Further, the passage between the disks 17, the fluid receives additional energy from the disks and enters also the outlet 2. This part of the pumped liquid creates a spike-like divide between the main streams, ensuring their smooth flow over each other, due to the presence of the disks 17 at the periphery of the driving disk 5 as well as channels 18, the friction loss of the peripheral surface of the disk 5 on the pumped liquid is reduced, as the surface area of the friction decreases.

The notch 21 or the grooves 22 for the annular disks 17 allow, without increasing the gap between the impeller and the wall of the outlet 2, to ensure the operation of the pump with high efficiency. In order to reduce the flow of fluid through the pump, the control body 8 by means of the tg 16 pushes the bearing supports 15 with the ends of the rotating rods 9 installed in them. In the result, the vanes 7 with the driven discs 6 approach each other, sliding into the grooves 12, and accordingly decreases. At the same time, the control unit 8 with the help of t g 11 brings the diaphragms 3 closer together and sets them against the driven disks 6.

As the flow rate increases, the slave discs 6 and diaphragm 3 move apart, increasing the flow sections of the impeller and retraction. 15 g 15 9 Fig. 1 7 A - A lost bj b 7 fPui.2 J / 7 fe Fig. H f725 j / 6-6 noSepHiffne

Claims (3)

1. ADJUSTABLE CENTRIFUGAL PUMP OF TWO-WAY INPUT on avt.sv. No. 1141217, characterized in that, in order to increase the efficiency of the pump by reducing energy losses due to disk friction, it is equipped with ring disks installed with a gap relative to one another on the periphery of the drive disk, while ring disks are made with different outer diameters, gradually increasing in the direction toward the middle of the drive disk, and in the latter, channels are made that communicate the suction areas of the pump with its periphery at the disk installation site. 2. Pump pop. 1, it is distinguished by the fact that, in the region of the minimum cross section of the outlet, a cutout for ring disks is made in the body, the contour of which bends around the latter along their outer diameters. <g 3. Pump pop. 1, characterized in that in the region of the minimum cross section of the outlet, grooves are made in the housing for each annular disk, wherein the depth of the grooves is different and corresponds to the outer diameter of the disks. SU „1177544 1 1177544 2