SU1328583A1 - Rotor loading-off device - Google Patents

Abstract

The invention can be used in centrifugal pumps and reduces the axial envelope of the device by reducing leakage through the cylindrical gap (TSS). A centrifugal wheel (CK) is installed at the entrance to the central assembly station 4, formed by the discharge piston 2 and the body part 3. The CC is formed by the paddles 7 and the covering disk 8 mounted on the end of the piston 2, facing the high pressure zone 5. Opposite the exit of the CK there is an annular directional visor 9 mounted on the part 3. The blades 7 provide the working medium with radial movement, and the visor 9 directs it to the entrance of the CK. The flow exits the CK in the radial direction with double speed and creates hydraulic resistance to the axial flow of leakage through the CSH. Axial envelope porp.1n 2 m. B. reduced, since the resistance of the TsSh does not depend on its length. 1 hp ff, 1 ill. (O (L 8 5 0 OS u 00 cd 00 with

Description

The invention relates to the field of mechanical engineering and can be used to unload the rotor from axial unbalanced force in centrifugal pumps, compressors and turbomachines.

The purpose of the invention is to reduce the axial dimension by reducing the leakage through the cylindrical gap by increasing the resistance of the latter.

The drawing shows the discharge device of the rotor, a longitudinal section.

The unloading device of the rotor contains a discharge piston 2 fixed on the shaft 1, which forms with the body part 3 a cylindrical gap 4 and with one end facing the high pressure zone 5 and the low pressure zone 6 with the other. The piston end 2 facing the high pressure zone 5 is provided with blades 7 and a covering disk 8 forming a centrifugal wheel, the outlet of which is located at the entrance to the cylindrical slot 4. The body part 3 is provided with an annular guide plate 9 located opposite the centrifugal wheel outlet. On the surfaces of the piston 2 and the body part 3, labyrinth cuts can be made. On the shaft 1 mounted impellers 10.

The unloading device of the rotor works in the following way.

When the shaft 1 rotates, the impellers 10 and the piston 2 rotate with it. The impellers 10 pressurize the medium and a high pressure zone 5 is formed at the outlet, resulting in a pressure drop at the ends of the piston 2 that compensates for unbalanced axial pressure.

force acting on the rotor. The blades 7 of the centrifugal wheel associated with the piston 2 communicate radial movement to the working medium. The guide visor 9 guides the medium to the inlet of the centrifugal wheel, increasing its speed at the exit of the latter. Since the wheel outlet is located at the entrance to the cylindrical gap 4, the flow coming out of the wheel in the radial direction with an increased speed creates a hydraulic resistance to axial flow of leakage through the slot 4. In this case, the axial envelope of the piston 2 can be reduced due to the fact that resistance to medium flow along slit 4 will increase regardless of its length.

Formula of Invention

Claims (2)

1. The unloading device of the rotor, which contains a shaft-mounted unloading piston, forming a cylindrical gap with the body part and with one end facing the high pressure zone and the other toward the low pressure zone, characterized in that axial dimension by reducing leakage through the cylindrical gap by increasing the resistance of the latter; the end of the piston facing the high pressure zone is provided with blades and a covering disk forming the centrifugal wheel, the outlet of which is located at the entrance to the cylindrical gap. 2. A device according to claim 1, characterized in that the body part is provided with an annular guide visor located opposite the outlet of the centrifugal wheel.