SU1086232A1 - Device for automatic balancing of axial force pump shaft - Google Patents

Abstract

1. DEVICE FOR AUTOMATIC TRIM axial force on the shaft pump comprising a housing, movable in the axial direction of the impeller shaft on which is fixed a discharge disk forming with the housing a discharge cavity in radial scharikopodshipnik kotoroya placed with the inner and outer race, characterized in that , in order to increase the reliability of the pump by reducing the rotor mass, the outer cage of the ball bearing is fixed in the housing, the latter being equipped with a cylindrical protrusion forming tvetnoy pover.hnostyu inner ring guaranteed clearance. 2. A device according to claim 1, characterized in that the inner yoke is made of two rings fastened along a cylindrical surface. (L 00 Oi y soyo

Description

The invention relates to hydraulic engineering and can be applied in centrifugal pumps to balance axial forces on the shaft.

A device for automatically balancing an axial force on a pump shaft is known, containing a cornus, an impeller shaft that is axially movable in axial direction, and a discharge disk fixed to the housing, which forms an emptying cavity with the inner and outer yoke 1.

The disadvantage of this device is its low reliability due to the presence of iia to the rotor shaft of a ball bearing with a ring on the outer cage, which leads to an increase in rotor mass, power consumption to rotate the inner cage and may cause imbalance of the rotor during skewed or ring misalignment.

The purpose of the invention is to increase the reliability | pump spines by reducing the rotor flywheel mass.

This goal is achieved due to the fact that in the device for automatic phasing of axial force on the axle shaft, the housing contains an axially movable shaft of the impeller, on which is mounted a discharge disk, which forms an empty cavity with the housing, in which a radial ball support is located the outer ring, the outer ring of the ball bearing is fixed in the housing, while the latter is provided with a cylindrical protrusion, forming with the counter surface of the inner race is guaranteed second gap.

In addition, the inner race is made of two wheels fastened along a cylindrical and upper surface.

The drawing shows a device for automatically balancing an axial force on a pump shaft, a longitudinal section.

The device includes a housing 1, an axially movable shaft 2 of the impeller 3, on which is mounted an unloading disk 4, which forms with the housing 1 an unloading cavity 5, in which a radial ball support 6 with an inner 7 and an outer 8 sleeve is placed. The outer race 8 of the ball bearing 6 is fixed in the housing 1, the latter is provided with a cylindrical protrusion 9, which forms a guaranteed clearance 11 with the counter surface 10 of the inner race 7. The inner race 7 is made of two rings 13 and 14 fastened along the cylindrical surface. Ring 14 on the design modes of operation of the pump forms a gap 15.

When the centrifugal wheel is in operation, the pumped liquid flows into the unloading cavity 5. In the calculated modes, the liquid leaves the discharge cavity through the gap 15. When the pressure decreases, the shaft 2 with the impeller M 3 moves to the right until the ring 14 contacts the discharge disk 4. Internal cage 7 rotates in place with the shaft 2, and the liquid passes through the ball 6 and the guaranteed gap 11. When the pressure developed by the pump increases, the calculated shaft 2 moves to the left and the liquid from the discharge chamber through the gap 15.

Such an embodiment of the device makes it possible to increase its reliability by simplifying the design and reducing the mass of the rotor, to reduce the power cost of rotating the bearing.

Claims (2)

1. DEVICE FOR AUTOMATICALLY ALIGNING THE AXIAL FORCING ON THE PUMP SHAFT, comprising a housing, axially movable impeller shaft, on which a unloading disk is mounted, which forms an unloading cavity with a housing, in which a radial ball bearing with an inner and outer race is housed, characterized in that, in order to increase the reliability of the pump by reducing the rotor mass, the outer cage of the ball bearing is fixed in the housing, while the latter is equipped with a cylindrical protrusion forming th surface of the inner race guaranteed clearance. 2. The device according to π. 1, characterized in that the inner race is made of two rings fastened along the cylindrical surface.