SU1275120A1 - Centrifugal pump - Google Patents

Description

The invention relates to a pump engineering and may find application in centrifugal pumps with a spiral outlet in the chemical, oil and gas industries. ₅

The purpose of the invention is to increase reliability by providing simultaneous unloading of the rotor from axial and radial forces.

In FIG. 1 shows a centrifugal pump, a longitudinal section; in FIG. 2 is a view A in FIG. 1. Yu

The centrifugal pump comprises a housing 1 with a spiral outlet 2 and cavities 3 and 4 of high and low pressure, a rotor 5 and a balancing device of the rotor 5, including a sleeve 6 mounted on the rotor 5, made in the housing 1 balancing chamber 7, hydraulically connected to the cavity 3 of high pressure , and an insert 8 installed in the chamber 7, fixed from an angular rotation. On the sleeve 6 is secured a ball bearing 9, ₂ of the insert 8 is mounted on the latter and is placed in the chamber 7 to form the housing 1 of the axial and radial clearances Ly, the radial axis 7 is disposed in the direction of the camera 10 dektora maximum radial force 25 R _p. The rotor 5 includes an impeller 11 with a driven disk 12, on which the sleeve is fixed 6. The disk 12 is installed with an axial clearance bz relative to the insert 8.

When the pump is operating, a radial force arises due to the unevenness of the velocity and pressure fields on the circumference of the exit from the wheel 11. The unevenness of the flow parameters is a result of the asymmetry of the spiral outlet 2 relative to the axis of rotation. The pressure on the side surfaces of the wheel 11 is also unevenly distributed, decreasing from the periphery to the center according to a parabolic law, which leads to the appearance of an unbalanced axial force directed towards the entrance to the impeller 11.

In the axial clearance δ ₃ between the driven: disk 12 of the impeller 11 and the liner 8, the angular velocity of rotation of the liquid is close to half the angular velocity of rotation of the impeller 11, and in the axial clearance δι between the non-rotating liner 8 and the housing 1, the fluid is even more inhibited. As a result, on the side surfaces of the liner 8 facing the impeller 11 and the housing 1, there is a difference in static pressures, creating an axial force on the liner 8, balancing the axial force acting on the rotor 5 through the bearing 9.

The static pressure acting on the peripheral surface of the liner 8 in the gap bg exceeds the static pressure acting on the central surface.

The difference in static pressures on the peripheral and central surfaces of the liner 8 creates a radial force on it, balancing the radial force acting on the rotor 5 through the bearing 9.

Changing the shape and size of the liner 8, you can change the direction and amount of balancing efforts.

Claims (1)

Claim A centrifugal pump comprising a housing with a spiral outlet and high and low pressure cavities, a rotor and a balancing rotor device, including a sleeve mounted on the rotor, a balancing chamber made in the housing, hydraulically connected to the high pressure cavity, and an insert installed in the chamber, fixed from angular rotation , characterized in that, in order to increase reliability by ensuring simultaneous unloading of the rotor from axial and radial forces, a ball bearing is fixed to the sleeve, contributions mounted on the latter and is placed in the chamber to form with the housing axial and radial clearance, wherein the radial axis of the chamber are located towards the maximum radial force vector. ВНИИПИ Order 6543/25 Circulation 586 Subscription Branch of the PPP "Patent", Uzhhorod, st. Project, 4