RU122313U1 - CENTRIFUGE - Google Patents

Abstract

A centrifuge for separating a suspension, consisting of a centrifuge body, a rotor with a filter element, a suspension supply pipe and a nozzle with holes directed towards the rotor, through which air or steam is supplied under pressure in the direction opposite to the centrifuge movement, characterized in that from the outside of the rotor parallel to its conical generatrix there are two diametrically located nozzles with holes, one of which has the ability to move (displace) relative to the perforated surface along its axis.

Description

The present invention relates to equipment for the separation of liquid heterogeneous systems using centrifugal forces, namely, centrifuges for separating suspensions.

A known centrifuge for cleaning soybean food suspension of the brand ЦСО-2000 (Passport ЦСО 00.000 ПС ZAO Sigma, Krasnodar, 1999), consisting of a centrifuge housing, a perforated rotor with a filter element, a steam manifold and a suspension feed pipe. In the case there is a window for unloading okara, a pocket with a pipe for exiting peeled soy base.

However, when using this centrifuge, it is not possible to obtain an okara of the desired humidity, since during its operation the filter element is clogged with solid (undissolved) particles.

Also known is a centrifuge for separating soy broth into a soy base and okara (patent 2287374 from 11/20/2006), consisting of a centrifuge housing, a perforated rotor with a filter element, a pipe for supplying steam (air) and a pipe for supplying a suspension.

In order to increase the separation efficiency and improve the quality of the solid fraction, nozzles are installed inside the housing for cleaning the rotor, through which air or steam is supplied under pressure in the opposite direction to the movement of the soy base.

The disadvantages of this design are the insufficient efficiency of the purge of the filter element, as well as bending moments and forces arising due to air pressure on the rotor and the support of the rotor shaft, as a result of which they fail prematurely.

Closest to the claimed one is a centrifuge for separating soy broth into a soy base and okara (patent 96033 dated 02.11.2009), consisting of a centrifuge body, a perforated rotor with a filter element, a pipe for supplying steam (air) and a pipe for supplying a suspension. In the case there is a window for unloading okara, a pocket with a pipe for exiting peeled soy base. For maintenance of the centrifuge, there is a lid in the casing, which is fastened with clamps during operation. The principle of operation is based on the filtration of the suspension through the filter element under the action of centrifugal forces arising from the rotation of the conical rotor. To clean the rotor from the outside, in parallel to its conical generatrix, two diametrically located nozzles are installed with holes through which air or steam is supplied under pressure in the opposite direction to the filtrate movement.

However, when using this type of purge, it is not possible to achieve the necessary efficiency of cleaning the rotor from stuck particles, due to the fact that when purging the filter mesh, unprocessed areas are formed on its surface, since the nozzle openings located opposite the rotor openings do not overlap the entire section of the hole.

The aim of the invention is to increase the cleaning efficiency of the filter surface of the rotor.

This goal is achieved by the fact that on the outer side of the rotor parallel to its conical generatrix there are two diametrically arranged nozzles with holes, one of which has the ability to move (offset) relative to the perforated surface along its axis.

The proposed continuous centrifuge consists of a housing 1, a welded frame 2, a drive shaft 3, an electric motor 4, two pulleys 5 and 6, a V-belt transmission 7. The rotating parts of the centrifuge are closed by a casing 8. In the centrifuge housing there are installed: pipes 9 for supplying steam (air) , perforated rotor 10 with filter element 11, pipe for the removal of centrate II. To service the centrifuge, there is a lid 12 in the casing, which is secured by clamps 13 during operation. A pipe 14 for supplying the suspension passes through the lid, and a window 15 is available in the lower part of the lid for discharging sediment.

The rotor is a shell of the shape of a truncated cone mounted on the hub 16. On the inner surface of the rotor there is a filter element 11, which is attached to the rotor by a flange 17, and on the other hand is pressed against the hub 16. A glass 18 is rigidly fixed to the rotor hub, for uniform distribution of the flow of the suspension along the generatrix of the rotor. To the pipes supplying steam (air) 9 connected nozzles 19 and 20, designed to clean the rotor of solid (undissolved) particles of crushed mass.

Improving the cleaning efficiency of the rotor is achieved by the fact that on the outer side of the rotor two diametrically located nozzles with holes are installed parallel to its conical generatrix, one of which has the ability to move (shift) relative to the perforated surface along its axis.

The principle of operation of the centrifuge is based on filtering the suspension through the filter element under the action of centrifugal forces arising from the rotation of the rotor. In this case, the suspension is fed into the nozzle I (suspension feed pipe) and enters the rotor, where under the action of centrifugal forces, the liquid phase is separated from the solid particles of the sediment on the filter material. The centrate flows down the walls of the casing and flows out of the centrifuge through nozzle II, and the sediment, moving along the surface of the rotor along the generatrix of the cone, enters the discharge window.

So that the openings of the filtering surface during operation are not clogged by solid (undissolved) particles of ground mass and the filtration quality does not deteriorate from the outside of the rotor, parallel to the rotor case, two diametrically located nozzles with holes directed towards the rotor are installed. During operation of the centrifuge, steam or air is supplied through the pipes 9 under pressure towards the movement of the centrate through the filter mesh, thereby stuck solid sediment particles are blown from the surface of the filter element. Moreover, after a certain time after the start of work, depending on the physicomechanical properties of the suspension, nozzles 20 are moved (displaced) relative to the perforated surface along their axis by a distance of 1.0 ... 1.5 of the diameter of the nozzle opening. As a result, the cleaning area of the filter surface increases.

In addition, in the case when steam is supplied to the nozzles, deodorization of the filtrate occurs simultaneously with the cleaning of the filter element.

Claims (1)

A centrifuge for separating a suspension, consisting of a centrifuge housing, a rotor with a filter element, a suspension supply pipe and a nozzle with openings directed towards the rotor, through which air or steam is supplied under pressure in the opposite direction to the centrate movement, characterized in that it is external two diametrically located nozzles with holes are installed parallel to its conical generatrix of the rotor, one of which has the ability to move (offset) relative to the perforated surface along its her axis.