SU1147856A1 - Inlet device of multistep vacuum steam-jet pump - Google Patents

Abstract

INPUT DEVICE OF MULTI-POWER VACUUM PARALLY JUMP PUMP, containing a flange nozzle and fixed in a 7 10 3 nozzle with the help of an oil deflector holder, located above the nozzle of the first stage of the pump and equipped with cooling pipes, in order to simplify the installation and demolition work and reduce the installation and dismantle and reduce and remove the installation and reduce the number of the pump. the flange is provided with two radial channels for supplying and discharging the cooling medium, the nozzle is provided with an annular bore, and the holder is made in the form of a ring located in the bore to form There is a sickle gap on the side of the channels and having radial holes, and the cooling tubes are placed in the latter and communicated with the channels. (L oo ate o)

Description

This invention relates to vacuum engineering.

A steam pump inlet device is known which contains a nozzle in which the oil deflector is cooled either by heat-conducting fins in thermal contact with the pump casing or by contacting the oil deflector cap with the element cooled by running water 1.

However, the known pattern is characterized by the inefficient cooling of the oil reflector due to the insufficient thermal conductivity of the ribs and the presence of contact connectors, caused by the need to ensure the disassembly of the pump.

It is also known to have an inlet device of a multistage vacuum steam jet pump, which contains a nozzle with a flange and is fixed in the nozzle by means of an oil deflector holder located above the nozzle of the first stage of the pump and equipped with cooling pipes 2.

Its disadvantage is the presence of an extra connector with a seal on the pump flange, which leads to an increase in the metal consumption of the pump and the amount of leakage into the pump

The purpose of the invention is to simplify installation and dismantling works and reduce metal consumption.

This goal is achieved by the fact that in the inlet device of a multistage vacuum steam jet pump, which contains a flanged nozzle and is fixed in the nozzle by means of a holder of an oil deflector, located above the nozzle of the first pump stage and equipped with cooling tubes, the flange is equipped with two radial channels for supplying and discharging the cooling medium, the nozzle is an annular bore, and the holder is made in the form of a ring located in the bore with the formation of a sickle-shaped gap from the side of the channels and having radial E holes, and cooling tubes are placed in the latter and communicated with the channels.

FIG. 1 shows a pump in which the proposed input device is used, a longitudinal section; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. 2

The inlet device of a multistage vacuum steam jet pump contains a pipe 1 with a flange 2 and an oil deflector 3 fixed in the pipe 1 with a holder, located above the nozzle 4 of the first pump stage and equipped with cooling pipes 5. The flange 2 is equipped with two radial channels 6 for supplying and discharging the cooling medium, the nozzle 1 is an annular bore 7, and the holder is made in the form of a ring 8 located in the bore 7 with the formation of a sickle-shaped gap 9 on the side of the channels 6 and having radial holes 0, and tubes 5 cooling are placed in the latter and communicated with the channels 6. The connection of the tubes 5 and the channels 6 is carried out by the nipple 11, on which the union nut 12 is placed. Between the nipple 11 and the surface of the flange 2 there is a seal 13.

Reliable sealing along the coolant path is ensured by deforming the seal 13 by pressing the nipple 11 with the cap nut 12 as it rotates in the hole of the ring 8. The ring 8 provides the rigidity when pressing the nipple 11 with the cap nut 12.

During the operation of the pump, the coolant flows through the channels 6 into the tubes 5 placed on the oil slug 3. As it moves, the coolant provides the oil slug 3 cooling, on which the reverse flow of vacuum oil vapor condenses.

The proposed design provides easy disassembly of the oil reflector 3, for which it is sufficient to loosen the cap nut 12 and the ring 8 freely comes out of the bore 7.

Making the oil reflector holder in the form of a ring and placing it in the bore with the formation of a crescent gap allows several times to reduce the metal consumption of the structure. FIG. 2, 73 А-А no8epHij / 77o П 11 5 Fig, 3

Claims (1)

INPUT DEVICE OF MULTI-STAGE VACUUM VAPUUM PUMPING PUMP, containing a nozzle with a flange and fixed in the nozzle using a holder, an oil deflector located above the nozzle of the first stage of the pump and equipped with cooling tubes, characterized in that, in order to simplify installation and dismantling works and reduce metal consumption, the flange is provided radial channels for supplying and discharging a cooling medium, the pipe - an annular bore, and the holder is made in the form of a ring located in the bore with the formation of sickle idnogo clearance from the channels and having radial holes, and the cooling tube has in the past and notified with channels. SU ... 1147856 Figure 1