RU38858U1 - SINGLE AUGER PUMP PUMP - Google Patents

Abstract

Usage: the utility model relates to the field of pump engineering and can be used in water supply systems, in the petrochemical, nuclear and other industries for pumping liquids by pumps. Objective: the objective of the utility model is to increase the reliability and durability of the pump, expanding the temperature range through the use of an advanced sealing system. SUBSTANCE: Osediagonal screw pump, comprising a housing with an axial inlet and a spiral outlet, a rotor including a shaft, with a cantilever-mounted impeller made in the form of a screw with screw blades, mounted in bearings, which are fixed in the housing of bearing bearings, the bearing being the side of the impeller is isolated from the discharge chamber by means of a seal. The face seal is made of salicylic graphite or ceramic in the form of two rings forming a friction pair, one of which is installed in the bearing housing, and the other on the shaft with the possibility of preloading it with a spring, the bearing housing has an annular cavity connected on one side by radial channels with a sealing zone, and on the other hand through a pipeline with a spiral outlet. 1 n.p. f.

Description

The utility model relates to the field of pump engineering and can be used in water supply systems, in the petrochemical, nuclear and other industries for pumping liquids by pumps.

Known osediagonal screw pump selected by the applicant as a prototype, comprising a housing with an axial inlet and a spiral outlet, a rotor including a shaft, with a cantilever mounted impeller, made in the form of a screw with screw blades, mounted in bearings that are mounted in the bearing housing bearings, and the bearing on the side of the impeller is isolated from the discharge chamber by means of a seal (RF patent No. 2099603 from 01.12.95.).

The separation of the bearing cavity from the discharge cavity is carried out by means of a seal made in the form of a cuff made of an elastomeric material consisting of two half rings pressed against the shaft by means of a spring.

Unreliable protection of bearings against fluid flow due to the sealing of elastomeric material leads to a limitation of the use of this seal at high loading parameters and peripheral rotor speed, especially at elevated temperatures of the pumped liquid.

The objective of the proposed utility model is to increase the reliability and durability of the pump, expanding the temperature range through the use of an advanced sealing system.

An axial-diagonal screw pump comprising a housing with an axial inlet and a spiral outlet, a rotor including a shaft, with a cantilever-mounted impeller made in the form of a screw with screw blades, mounted in bearings that are mounted in the housing of the bearing bearings, with the bearing on the working side the wheels are isolated from the unloading chamber by means of a seal, according to a utility model, the face seal is made of salicylic graphite or ceramic in the form of two rings forming a friction pair, one of which

mounted in the housing of bearing bearings, and another on the shaft with the possibility of preloading it with a spring, the housing of bearing bearings has an annular cavity connected on one side by means of radial channels with a sealing zone, and on the other hand by means of a pipe with a spiral outlet.

Thanks to the introduction of new features, namely a mechanical seal made of salicylic graphite or ceramics, reliable bearings overlap from the liquid in the discharge cavity. The use of salicylic graphite or ceramics increases the durability of this seal and the pump as a whole and extends the temperature range of the pumped liquid. The proposed cooling system of the friction pair of the mechanical seal also increases its service life, and hence the life of the pump.

The above distinguishing features are new in comparison with the prototype, so the invention meets the criterion of "novelty."

This technical solution can be reproduced industrially, therefore, it meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the pump; figure 2 presents the node a in figure 1 in an enlarged view.

The Osediagonal screw pump contains a housing 1, with an axial inlet 2 and a spiral outlet 3, a rotor 4, which includes a shaft 5 with a cantilever impeller 6, made in the form of a screw with screw blades. The shaft 5 is installed in bearings 7 and 8, which are fixed in the housing of the bearing bearings 9. Between the housing of the bearing bearings 9 and the impeller 6 is a discharge chamber 10. The bearing 7 is isolated from the discharge chamber 10 by a mechanical seal 11.

The mechanical seal 11 is made in the form of two rings 12 and 13 of salicylic graphite or ceramic. The ring 12 is pressed into the housing of the bearing bearings 9, the ring 13 is mounted on the shaft 5 and is pressed against the end of the ring 12 by means of a spring 14.

An annular cavity 15 is made in the housing of the bearing bearings 9, which is connected by radial channels 16 to the seal 11. On the other hand, the annular cavity 15 is connected via a pipe 17 with a spiral outlet 3.

The pump operates as follows. The auger wheel 6 with a shaft 5 is driven into rotation and move the pumped liquid. The fluid flowing around the blades of the auger wheel 5 and moving from a smaller diameter to a larger one increases its pressure due to an increase in the peripheral velocity of the fluid flow with an increasing outer diameter. The fixed ring 12 and the ring 13 rotating with the shaft 5 form a friction pair. By adjusting the tension of the spring 14, the required end tension between the rings 12 and 13 is achieved. The abutting surfaces of the rings 12 and 13 prevent liquid from entering the bearing cavity 7.

The cooling of the friction pair of the mechanical seal 11 is carried out by supplying the working fluid through the radial channels 16, the annular cavity 15 and the pipe 17 from the spiral outlet 3. Moreover, the circulation of the working fluid arising in the radial channels 16 improves the process of heat removal from the friction pair.

The proposed seal made of salicylic graphite or ceramic protects the bearings from the ingress of hydraulic fluid. Due to the application of the proposed cooling system, the seal is quite durable in operation. Thus, increases the reliability and durability of the pump.

Claims (1)

An axial screw pump comprising a housing with an axial inlet and a spiral outlet, a rotor including a shaft with a cantilever mounted impeller made in the form of a screw with screw blades, mounted in bearings that are mounted in the bearing housing, the bearing being on the side of the impeller insulated from the unloading chamber by means of a seal, characterized in that the seal is made of face from salicylic graphite or ceramic in the form of two rings forming a friction pair, one of which It is new in the housing of bearing bearings, and the other on the shaft with the possibility of preloading it with a spring, and the housing of bearing bearings has an annular cavity connected on one side by radial channels with a sealing zone, and on the other hand by means of a pipeline with a spiral outlet.