EP2060587A1

EP2060587A1 - Sieve cone

Info

Publication number: EP2060587A1
Application number: EP07120846A
Authority: EP
Inventors: Jörgen LARSSON; Wolfgang Röge; Nopanat Suthumno
Original assignee: Gosta Larssons Mekaniska Verkstad AB
Current assignee: Gosta Larssons Mekaniska Verkstad AB
Priority date: 2007-11-16
Filing date: 2007-11-16
Publication date: 2009-05-20

Abstract

A centrifugal sieve (1) is used for separating starch granules from a starch containing raw material, containing starch granules, liquid and fibres. The sieve comprises a housing (2) with a rotatable separating drum (3) having minute sieving holes. These holes are provided in an inner drum surface for allowing the starch granules and liquid to pass through while retaining the fibres inside the drum. The sieving holes are extending all the way through a solid circumferential drum wall, thus creating on the outside of the drum wall a sieving hole configuration which is identical with a sieving hole configuration on the inside.

Description

Technical Field of the Invention

Present invention relates to a centrifugal sieve for separating starch granules from a starch containing raw material, containing starch granules, liquid and fibres, which sieve comprises a housing with a rotatable separating drum having minute sieving holes, which are provided in an inner drum surface for allowing the starch granules and liquid to pass through while retaining the fibres inside the drum.

Background Art

In the manufacturing of starch from different raw materials, such as roots like potatoes or manioc or from different grains like maize, wheat, rice or barley the starch granules in the cells of the raw material are to be extracted by disintegrating the raw material either by rasps or mills, sieving, washing and drying.
After disintegrating, the raw material has become a slurry containing fibres, starch granules and liquid. This slurry is conveyed to a centrifugal sieve, in which the starch granules and liquid are separated from the fibres.
The centrifugal sieves used up to now are essentially of the type shown in GB 778 507 . In this type of sieve the starch slurry is fed to the top of a coarsely perforated, conical or cylindrical drum, the inside of which is covered with a screening plate insert. While the drum is rotating and the starch slurry is fed to the drum, water is sprayed on the inner drum wall via nozzles for washing out the starch. The starch granules are passing through the sieve whereas the fibres are sliding down the screening plate insert to be collected and discharged at an outlet below the drum.
The screening plate inserts can be a metal foil, screen cloth or gauze. These inserts are very thin and delicate; they have a thickness of 0,1 - 0,3 mm with a mesh size of 0,1-0,25 mm. As a screening insert wears down at operation it requires frequent repair or replacement, which is a time and labour demanding operation and includes removing of the conical drum from the centrifugal sieve, repairing or removing of the sieving insert, cleaning of the inner surface of the drum and applying of glue for fastening a new insert. One insert comprises several segments, which are fastened overlappingly one at a time. It is vital that the segments are sealingly attached to each other and to the drum. The exchanging operation greatly reduces the capacity of the centrifugal sieve. Further, this type of centrifugal sieves can only work at a limited rotational speed as the insert will losen or crack at higher velocities.

Summary of Invention

The object of the invention is to provide a centrifugal sieve with improved capacity, higher reliability, less maintenance requirement and longer lifetime.
This object is achieved by means of a centrifugal sieve for separating starch granules from a starch containing raw material, containing starch granules, liquid and fibres, which sieve comprises a housing with a rotatable separating drum having minute sieving holes, which are provided in an inner drum surface for allowing the starch granules and liquid to pass through while retaining the fibres inside the drum, and is characterized in that the sieving holes are extending all the way through a solid circumferential drum wall thus creating on the outside of the drum wall a sieving hole configuration which is identical with a sieving hole configuration on the inside. In this way a sieving insert and a supporting cage are integrally formed, which solves the above mentioned problems.
Each sieving hole has diameter of less than ca. 0,25 mm, preferably 0,1-0,25 mm, and is for exact and repeatable production drilled in the drum wall by means of electron beam drilling.
For prevention of clogging of the sieving holes each sieving hole is preferably conical, with increasing area towards the outer surface of the drum.

Brief Description of the Drawings

By way of an example a preferred embodiment of the invention will be described with reference to the accompanying drawing.
Fig 1 is a cross section of a centrifugal sieve according the invention.

Detailed Description of Preferred Embodiment of the Invention

A centrifugal sieve 1 shown in fig 1 is used for separating starch granules from a starch containing raw material in form of a slurry and comprises a housing 2 with a rotatable separating chamber or drum 3. The separating chamber is a truncated cone 4 provided with minute sieving holes. An end plate 5 is covering its smaller diameter opening.
For rotating the separating chamber 3, a rotating shaft 11, driven by a motor 12, is attached to the end plate 5, concentric with the axis of the cone.
The cone 4 has a slurry inlet 7 at the end plate 5 at the top of the cone. A distribution plate 6 is arranged in parallel with and adjacent to the end plate 5 inside the cone. A conduit 8 for feeding the slurry is passing through the larger diameter opening of the cone and ending at the inlet 7 between the end plate 5 and the distribution plate 6. In this way the fed slurry is distributed over the whole circular area at the top of the cone.
Inside the cone there is a set of nozzles 13 for spraying water at the inner cone wall, washing starch granules off the fibres and preventing material from clogging in the sieving holes. There is a set of nozzles 14 too on the outside of the cone for rinsing the outer cone wall.
The larger diameter opening of the cone forms an outlet 9 for a fibre containing part of the slurry. An outlet 10 for a starch granule containing part of the slurry, having passed the sieving holes, is provided in the housing 2.
In the prior art centrifugal sieves, the drum acts as a supporting cage for the sieving insert. As such it has holes with a diameter of ca 10 mm with a wall thickness of ca 2 mm. The sieving insert has a thickness of ca 0,1 mm with sieving holes in form of slots with a width of 0,1 - 0,25 mm and a length of 1 mm. The size of the holes in the supporting cage in the known centrifugal sieves must be dimensioned carefully since on one hand it is necessary to have as large open area as possible for not blocking the material passing through the sieving holes. On the other hand if the holes are too large the supporting cage will not have the necessary supporting function for the sieving insert. The supporting cage inevitably lessens the sieving capacity of the sieve no matter the size of the holes in this cage.
The truncated cone 4 in the centrifugal sieve according the invention has a thickness of ca 2-3 mm and acts as both a supporting cage and a sieving insert.
The truncated cone 4 has an inner surface and an outer surface, wherein the inner surface and the outer surface have the same sieving hole configuration. The sieving holes are through bores directly made in the solid cone wall. The sieving holes have a diameter of 0,1 - 0,25 mm allowing the starch granules and liquid to pass through while retaining the fibrers in the interiour of the cone.
The cone has approximately 510 sieving holes per square centimeter
The sieving holes are conical, with increasing hole area towards the outer surface of the drum. This hole form will prevent material from blocking the holes.
The sieving holes are suitably perforated by electron beam drilling.
The above described centrifugal sieve is one example of a centrifugal sieve according the invention. The skilled man will realize that other embodiments are possible within the scope of the claims.

Claims

Centrifugal sieve for separating starch granules and liquid from a starch containing raw material, containing starch granules, liquid and fibres, which sieve comprises
a housing (2) with a rotatable separating drum (3) having minute sieving holes, which are provided in an inner drum surface for allowing the starch granules and liquid to pass through while retaining the fibres inside the drum (3),
characterized in that the sieving holes are extending all the way through a solid circumferential drum wall, thus creating on the outside of the drum wall a sieving hole configuration which is identical with a sieving hole configuration on the inside.
Centrifugal sieve according to claim 1, wherein each sieving hole has a diameter of less than ca. 0,25 mm.
Centrifugal sieve according to claim 1, wherein the sieving holes are drilled in the drum wall by means of electron beam drilling.
Centrifugal sieve according to claim 1, wherein each sieving hole is conical, with increasing area towards the outer surface of the drum.
Centrifugal sieve according to claim 1, wherein the sieving drum has a thickness of 1,5-3 mm.