DE19619107A1 - Sorter for small-grained solids according to particle size - Google Patents

Abstract

The sorting device consists of a membrane (3), which is excited periodically with variable amplitude and/or frequency. The membrane forms the base of a vessel (2), and a separator device (5,6,8) is located above the vessel to separate particle fractions, which move in orbits of different heights. The separator device is operated by mechanical, pneumatic, or electrostatic elements or a combination thereof. It is formed by a sideward air jet (5), a separator (6), and a separate collection container (8). The air jet passes over the top edge of the vessel towards the separator, so that each particle fraction passes into the separator and then into collection container.

Description

The invention relates to a method and an apparatus for Separation of fine-grained solids according to the particle size and density from a solid mixture.

According to the prior art, there are different methods for Separation of fine-grained solids according to the particle size and Particle density known. Process for separation after the Particle size (classifying) is sieving, sedimentation in the Gravity field or in the centrifugal force field as well as the sifting. The latter two methods are also for separation suitable according to the particle density (sorting). Dry screening is effective only up to a particle size larger than 50 µm can usually be used for particle sizes smaller than 50 µm Wet screening process used. Like everyone else, they have Sedimentation process to the disadvantage that small particles slightly agglomerate the separation from the liquid phase. On Another disadvantage is that due to the liquid to be used chemical or other properties of the particles changed can be. Sighting is especially for very small ones Particle sizes used.

The object of the invention is to provide a method with the smallest amounts of the starting material almost lossless and can be separated without the use of additional liquids can. The choice of process parameters is intended to be stepless Specification of the separation criteria may be possible. The device is said to be easy and inexpensive to implement.

According to the invention, the object is achieved with a method using  Features of claim 1 solved. An advantageous variant is indicated by claim 2. The task continues with a device for performing the method with the Features of claim 3 solved. Further training and Refinements are the subject of dependent claims 4 to 6.

The invention is based on the interaction of the particles of the fine - grained solid with a moving membrane in Connection with the ballistic properties of the on it following movements in a gaseous medium or in vacuum.

Essential for the mechanical interaction of the particles with the membrane is their relative movement to each other. This determines about the characteristic flight time for each one Particle size (influenced by friction in the gaseous medium) compared to the time course of the membrane movement. The There will be friction with the gaseous medium during flight movement essentially on the particle size and shape of the particles influenced. The ratio of proportions of elastic and inelastic interaction with the membrane is mainly caused by affects the particle size and mass of the particles. This means that only for the particle fraction, at flight time and Vibration period of the membrane are coordinated with each other Energy loss due to friction with the gaseous medium and inelastic shock can be compensated for with the membrane can. Therefore, such particles reach compared to the others a maximum flight altitude, they can with regard to their Properties through the choice of the gaseous medium (also Vacuum possible) and the specification of amplitude and frequency of the Membrane movement selected and by a suitable Separation device due to its flying height reached from the rest of the solid mixture are separated.  

The advantage of the invention is that particles with a Grain size even below 50 microns without dispersing in one Liquid can be separated.

The invention is described in more detail below using an exemplary embodiment. The method and device are explained with reference to the single FIG. 1.

In FIG. 1, a vessel 2 is shown with a vibratory diaphragm 3 as a bottom. The oscillation is excited by the coil 4 . In the vessel 2 there are particles 1 of different sizes, which interact with the membrane 3 . The fraction with the maximum flight path height is separated from the other particles by the side air flow 5 and reaches a separate container 8 via the separator 6 .

The membrane 3 can be controlled by the external exciter, the coil 4 , in terms of amplitude and frequency. The particles 1 of the fine-grained solid can interact mechanically with the membrane 3 , as a result of which flight movements of the particles 1 can be generated in the earth's gravitational field. Due to the periodic movement of the membrane 3 and the ballistic characteristic of the flight movements, the possibility of maximum energy absorption due to a temporal coincidence of the flight time with the period of the membrane movement results for a certain particle fraction.

To eliminate the friction of the particles 1 with the gaseous medium, the arrangement can be operated under a container 7 in which a vacuum is generated.

Claims (6)

1. Process for the separation of fine and very fine-grained solids according to the particle size and density from a solid mixture, characterized in that

• - With a periodically moved membrane ( 3 ),
• - The relative movement of the particles ( 1 ) and the membrane ( 3 ) to each other, which depend on the particle size and particle density by the friction of the particles in the gaseous medium and the energy loss, which is influenced by the ratio of elastic and inelastic portion of the interaction ,
• - in connection with the selected parameters of the membrane movement, amplitude and / or frequency,
• - The particles ( 1 ) are excited to different flight heights,
• - And the particles ( 1 ) in connection with a separation device ( 5 , 6 , 8 ), for which the flying height of the particles ( 1 ) is the separation criterion, are separated from the rest of the solid mixture according to particle size and density.

2. The method according to claim 1, characterized in that instead of the gaseous medium vacuum is present and only the interaction between the particles ( 1 ) and the membrane ( 3 ) is used for the excitation of different flight altitude. 3. Device for carrying out the method according to one of claims 1 to 2, characterized in that a diaphragm ( 3 ) which can be periodically excited with variable amplitude and / or frequency is provided, the diaphragm ( 3 ) forming the bottom of the vessel ( 2 ), and above the vessel ( 3 ) a separating device ( 5 , 6 , 8 ) is provided for separating particle fractions of a flight path height. 4. The device according to claim 1, characterized in that the Separation device with mechanical, pneumatic or electrostatic agents or combinations thereof is operable. 5. The device according to claim 3, characterized in that the separating device is formed by a lateral air flow ( 5 ), a separator ( 6 ) and a separate collecting vessel ( 8 ), the air flow ( 5 ) over the upper edge of the vessel ( 2 ) strokes and is directed to the separator ( 6 ), so that one particle fraction each gets into the separator ( 6 ) and then into the collecting vessel ( 8 ). 6. Apparatus according to claim 3 or 4, characterized in that a vacuum ( 7 ) is provided at least around the area of the separation of the particles.