CS243016B1 - Stirrer's bearing contamination protection device - Google Patents

Abstract

Equipment for agitator bearing protection against contamination of the pressure chemical flow flow reactor using for transfer the force of the magnetic clutch stirrer resting in that the stirrer shaft is fixed connected to internal magnets and stored in bearings while bearing or bearings located away from the reaction space water with cap. The device can be used for through-flow pressure chemical stirred reactors stirrers using magnetic couplings in laboratories chemical industry.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for protecting a stirrer bearing from contamination by reaction components in a chemical reactor.

Pressure reactors are used in laboratories or chemical plants, whose contents have to be stirred at high speed during the reaction. Due to the pressure of the reactor, it must be driven externally through the seal - for pressure changes and slow-running agitators or via the so-called magnetic coupling - for high pressures and high speeds.

However, the high speed stirrer must be accurately and balanced in the space associated with the reaction medium. For high speeds, sliding bearings, such as teflon, which are not contaminated by the reactor contents or which do not contaminate the contents, are usually not sufficient.

Placing in a so-called gas bearing is very complicated and exacting and requires special measures for start-up, which are also expensive or complicated.

This problem is overcome by the device according to the invention, characterized in that a magnetic coupling is placed behind the shaft, which can be either rolling or sliding, away from the reaction space of the reactor. This inlet can also be located only after the first bearing of the bearing.

Said arrangement allows the supply of one or more non-contaminating fluids, reaction components or inert fluid through the slots in the sliding or rolling bearing and through the gap between the separating baffle and the internal magnets of the magnetic coupling. In this way, the bearing itself is protected from contamination by the environment in the reaction space or the environment in this space from contamination by contact with the bearing material.1

The whole device can be designed for high pressures e.g. greater than 10 MPa and very high agitator speeds e.g. greater than 10,000 rpm. The bearing of the agitator is not more complicated than with non-pressurized devices.

The device according to the invention is shown in the accompanying drawing, in which the reactor is shown in axial section in a variant of the invention, the supply being located behind both bearings. The device is drawn schematically and no other inlets, outlets and apparatuses for controlling pressures, temperatures, etc. are drawn.

In this figure, the actual agitator chemical reactor 6 is provided with a reactor cover 2 comprising a magnetic stirrer clutch 6. The internal magnets 4 are fixedly mounted on the agitator shaft 6, which are separated by a gap and a partition 2 from the external magnets X driven, for example, by a V-belt 8.

The shaft 1 is mounted in bearings X and 16. Reaction space IX is sealed between the reactor lid 3 and the actual chemical reactor 6 by a gasket tightened by bolts ιχ ·

The inlet 11 allows the non-contaminating fluid to be fed through the bearing X through the bearing X through the bearing 12 of the bearing 12 into the reaction space 15 and thereby pushing the reaction components away from the bearing 12.

The inlet 11 can be located just behind the bearing 12.

The equipment can be used in flow-through chemical reactors stirred with stirrers using a magnetic coupling in laboratories or chemical industry plants.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for protection of a stirrer bearing against contamination in a pressurized chemical flow reactor using magnetic clutches with rolling or sliding bearings for transmitting the stirrer drive force, characterized in that the stirrer shaft (4) is fixedly connected to the internal magnets (6) and mounted in bearings (5) and (12), wherein a lead (11) with a closure (10) is located downstream of the bearing (12) or the bearings (5) and (12) away from the reaction space (15).