SU106024A1 - Device for sealing the shaft of a centrifugal pump - Google Patents

Description

i The invention relates to devices for sealing the shaft of a centrifugal pump using an impeller located between the impeller of the pump and the gland and creating a support in the direction of the impeller.

Existing sealing devices of similar purpose, due to the use of an impeller of the impeller type of a centrifugal pump, have considerable dimensions and do not provide sufficient backwater, and therefore are unsuitable for sealing high-pressure pumps.

In order to increase the sealing ability of the proposed device, the impeller is designed as an impeller of a multistage vortex pump, the diameter of the impeller being equal to or slightly larger than the diameter of the pump shaft.

With such a structural design of the sealing device, the impeller can be simultaneously used as a journal of a plain bearing.

FIG. 1 shows a sealing device in longitudinal section; in fig. 2 is the same in cross section.

The device consists of a casing / impeller S, made in one piece or separately with the shaft 5 of the impeller 4 of a centrifugal pump.

The housing / is provided with several diversion canals 5, separated by bridges (and successively interconnected in channels 7.

The impeller 2 has several rows of radial blades 6 that do not reach in height to its cylindrical surface.

When the impeller rotates: J of the sealing fluid located in the channels, movement is reported and it flows through the bypass channels 7 from one discharge channel to another, with increasing pressure. The supply of gasket seal 1, its liquid is produced in the chamber -9 of the sleeve 10 of the gland.

The sealing device can also work on the fluid flowing from chamber II through the gap between the housing I and the impeller 5 without supplying it into the chamber 9.

To reduce the amount of fluid flowing from chamber 7U into the chammera .9 through the gap between the hull .7 and the impeller 2. The grooves 12 that serve as labirite gain and equalize the pressure of the fluid and circumference 1.Mieller 2.

To equalize the radial of the first efforts resulting from the non-differential distribution of the hydrostatic pressure of the liquid around the circumference of the discharge channels ;;. Their six points are symmetrically relative to the axis of the shaft and with the calculation of the use of hydrostatic pressure of the liquid to equalize the gravity of the rotating parts of the pump.

In order to make it possible to use the proposed sealing device as an oxygen monitor without using an oil lubricant, the housing ./ is made of a graphite sleeve.

P r d dm et z o b) e te n u

1. Device for the pilot-shaft of a centrifugal pump with the use of a rosiloid between his impeller and the impeller gland, on the shaft

and creating iodior in the direction of the impeller, which is based on the fact that the impeller is designed as an impeller of a vortex single-stage or myogostueničné pump, and the pump terminals of the casing of which are evenly placed around the circumference .

2. The form of execution of the device according to claim 1, characterized in that, to equalize the pressure and the circumference of the impeller after each of its stages, the imeller is provided with annular grooves that also perform the functions of a labyrinth seal.

3. Device poi. 1, which is imelle-free and integral with the shaft and serves as a pin, and the body of the vortex pump is a sliding device.

4. The form of the device according to p. 3, characterized in that the jumpers of the discharge channels are arranged with the use of the hydrostatic pressure of the liquid circulating in these channels to balance the gravity of the rotating parts of the pump.