AT404681B - CENTRIFUGAL FORCE WINIFIFIER - Google Patents

Abstract

A centrifugal air separator with a housing (1) has at its perimeter either a common inlet (2) for the feedstock and the process gas or a separate inlet for each, at its lower end an outlet (8) for the coarse material and at its face a central outlet (6) for the fine material and in which is mounted a separator rotor driven by a rotary drive (7). The coarse-material outlet (8) is equipped with an adjustable extraction mechanism (9, 10).

Description

AT 404 681 B

The present invention relates to a centrifugal air classifier with a classifier housing which has one or a common inlet for the material to be viewed and the gas on the circumference, an outlet for the coarse material on the underside and a central outlet for the fine material on one end face and in which a view rotor driven by a rotary drive is mounted.

An example of such a centrifugal air classifier is shown in DE-A-38 14 458.

An important indicator of the performance of an air classifier is its selectivity. A frequently used definition of selective focus is the " spreading fine material ", which is understood to mean the quotient from the fine material component received to the fine material component contained in the feed material.

The aim of the invention is to create a centrifugal air classifier of the type mentioned at the outset which has an improved selectivity. This goal is achieved according to the invention in that the coarse material outlet is equipped with a controllable discharge unit.

The invention is based on the knowledge that the longer the dwell time of the material to be viewed in the viewing space, the cleaner the coarse material deposited and the better the selectivity. The dwell time of the material to be viewed in the viewing area is dependent on the loading density, i.e. the ratio of the quantity of material to be classified to the quantity of gas to be classified. The discharge of the coarse material is regulated and delayed by the construction according to the invention in order to always maintain a certain high loading ratio in the viewing area. In this way, the efficiency of the sighting is significantly increased and the selectivity of the air classifier is significantly improved.

In a preferred embodiment of the invention, the rotary drive of the classifying rotor is equipped with a sensor for measuring the power consumption, which controls the discharge unit, possibly via a control circuit. The power consumption of the rotary drive of the classifying rotor is a measure of the loading density of the classifying area, so that an automatic regulation of the loading density can be achieved in this way.

The discharge unit is preferably a speed-controlled cellular wheel sluice. Such a discharge unit can be regulated continuously and within wide limits.

The invention will now be explained in more detail with reference to an embodiment shown in the drawing. The drawing shows a block diagram of the control according to the invention, in which the wind sifter is shown schematically in axial section.

The centrifugal air classifier has a drum-shaped classifier housing 1, which is provided on its upper side with an inlet 2 for the classifying gas / classifying material mixture. It is also possible to provide separate inlets for the classifying material and classifying gas on the periphery of the classifier housing 1.

In the classifier housing 1, a cylindrical, hollow classifying rotor 3 is rotatably supported coaxially via a horizontal shaft 4. The classifying rotor 3 has a large number of axially parallel inlet gaps 5 distributed over its circumference, via which the classifying gas / classifying material mixture approaching the classifying rotor 3 in a spiral flow opens into the classifying rotor. At one end of the classifying rotor 3 there is an axial outlet 6 for the fine material. The classifying rotor 3 is rotated by a rotary drive 7 via the shaft 4.

An outlet 8 for the coarse material is arranged on the underside of the classifier housing 1. The classifying gas is either introduced into inlet 2 with pressure or withdrawn from outlet 6 with negative pressure.

Each particle of the feed material is subject, on the one hand, to the centrifugal force in the vortex flow directed radially outwards and, on the other hand, to the drag force directed radially inwards of the flow. Coarse material migrates to the periphery of the classifier housing, where it is discharged via outlet 8, and fine material to the center, where it is discharged via outlet 6.

The coarse material outlet 8 is equipped with a controllable discharge unit, e.g. a speed-controlled rotary valve 9 equipped. The cellular wheel sluice 9 is driven by a rotary drive 10, the speed of which is set in such a way that the discharge of the coarse material is delayed from the viewing area and the loading density in the viewing area is thereby increased.

The cellular wheel sluice 9 can be controlled in a control loop by measuring the loading density in the visible space of the classifier housing 1 and using it to adjust the cellular wheel sluice 9. A meaningful measure of the loading density in the viewing area is, for example, the power consumption of the rotary drive 7 of the viewing rotor 3. The rotary drive 7 is therefore equipped with a sensor 11 for measuring its power consumption. The output signal of the sensor 11 is used directly or after processing in a control circuit 12 for regulating the speed of the rotary drive 10 of the rotary valve 9.

With this control principle, optimal selectivity can be achieved for the respective wind sifter type and the visible material. 2nd

Claims (3)

AT 404 681 B claims 1. Centrifugal air classifier with a classifier housing, which has on the periphery one or a common inlet for the visible material and the classifying gas, an outlet for the coarse material on the underside and a central outlet for the fine material on one end and in which a classifying rotor driven by a rotary drive is mounted, characterized in that the coarse material outlet (8) is equipped with a controllable discharge unit (9, 10). 2. Centrifugal air classifier according to claim 1, characterized in that the rotary drive (7) of the classifying rotor (3) is equipped with a sensor (11) for measuring the power consumption, which is the discharge unit (9, 10), optionally via a control circuit (12 ), controls. 3. Centrifugal air classifier according to claim 1 or 2, characterized in that the Austragag-greggat (9,10) is a speed-controlled rotary valve. With 1 sheet of drawings 3