SU1555537A1 - Hydraulic relief device - Google Patents

Abstract

The invention can be used to reduce axial forces on a thrust bearing in centrifugal pumps. The purpose of the invention is to increase the reliability of operation by gradually increasing the carrying capacity of the device with an increase in the frequency of rotation of the shaft. The device contains a discharge chamber 7 communicated with a low pressure zone 10 of the pump by means of an end slot 8. In the discharge disc (D) 4, an annular intermediate chamber 5 is connected to the end slit 8 via axial holes 11 in D 4, and with the discharge chamber 7 through the regulating element 6, made in the form of an annular insert of a porous elastically deformable material. With an increase in the rotational speed of D 4, the insert bends under the action of centrifugal force, its porosity increases. The insert allows more fluid to pass through, and the pressure in the slot 8 increases, thereby increasing the carrying capacity of the discharge device. 1 il.

Description

The invention relates to a pump engineering and can be used in centrifugal pumps.

The purpose of the invention is to increase reliability by gradually increasing the load-bearing capacity of the device with increasing shaft speed.

The drawing shows a hydraulic unloading device, a longitudinal section.

The hydraulic unloading device comprises a housing 1 with a fifth 2 fixed thereon, a shaft 3 with an unloading disk 4, having an intermediate chamber 5 along the periphery with an adjusting element 6 and installed in the housing 1 with the formation of the unloading chamber 7 and the end chamber between it and the fifth 2 throttling slots 8, co- ₂ (valuable to each other and, respectively, with zones 9 and 10 of the high and low pressure of the pump, while the intermediate chamber 5 is in communication with the discharge chamber 7 through the control element ₂ , and with the end slot 8 through axial holes 11 in di ske 4. The intermediate chamber 5 is made in the form of an annular cavity, and the regulating element 6 is in the form of an annular insert of a porous elastically deformable material such as metal rubber.

The device operates as follows.

During the operation of the pump, the liquid from the high-pressure zone 9 enters the discharge chamber 7 and then through the end throttling slot 8 into the low-pressure zone 10. At the same time, part of the fluid flows through the regulating element 6, the intermediate chamber 5, the holes 11 and the end-slot 8. The axial force acting on the shaft in the direction of entry into the pump is compensated by the pressure force on the disk 4 in the chamber 7 and the slot 8. With increasing frequency rotation of the shaft 3, the control element 6 of a porous elastically deformable material bends under the action of centrifugal force, its porosity increases, respectively, the hydrodynamic resistance decreases, more fluid flows through the element 6 and the pressure in the gap 8 ' ovyshaetsya. Thus, with an increase in the shaft speed, the bearing capacity of the unloading device increases.

Claims (1)

SUMMARY OF THE INVENTION A hydraulic unloading device comprising a housing with a fifth mounted thereon, a shaft with an unloading disk having an intermediate chamber along the periphery with a control element mounted in the housing to form between it and the fifth unloading chamber and an end throttling gap, interconnected and respectively with zones of high and low pressure of the pump, while the intermediate chamber is in communication with the discharge chamber through the control. element, and with an end slot through axial holes in the disk, characterized in that, in order to increase reliability by smoothly increasing the load-bearing capacity of the device with increasing shaft speed, the intermediate chamber is made in the form of an annular cavity, and the control element in the form of an annular inserts from a porous elasto-deformable material such as metal. rubber.