AT396879B - Spiral air sifter - Google Patents

Abstract

Spiral air sifter, having an essentially cylindrical sifting chamber 4, free of installed fittings, with fixed side walls 7, having a sifting-gas supply through a grid 5 of guide vanes surrounding the sifting chamber coaxially, having a supply of material to be sifted on the outer circumference of the sifting chamber, having a discharge device for the coarse material drawn off at the outer circumference of the sifting chamber and having a central connecting nozzle 9 to discharge the sifting gas with the fine material in one end wall of the sifting chamber, fixed guide discs 8 being arranged at a distance from the side walls of the sifting chamber, their edges forming annular gaps 10 with the side walls. <IMAGE>

Description

AT396879B

The invention relates to a spiral air classifier with a substantially cylindrical, free from egg structures with fixed side walls, with a sight gas supply through a guide vane grille coaxially surrounding the sight space, with a sight feed on the outer periphery of the sight space, with a discharge device for the extracted on the outer periphery of the sight space Coarse material and with a central connection piece for the discharge of the sight gas with the fine material in an end wall of the viewing area. For operation with sight gases in the high temperature and pressure range, only static wind classifiers without rotating fittings have been used for reasons of strength or fluid dynamics. Conventional static classifiers, such as those used for the pre-screening of jet grinding products, are not suitable for high-performance classifications because the classifying gas flow is slowed down in the area of the lateral boundary surfaces of the classifying area, which significantly affects the quality of the separation. PS 26 29 745, which discloses a static spiral wind sifter with sealing air injection to improve the sight gas flow in the area near the wall. With this spiral wind sifter, air is used as the sight gas and in the vicinity of the central opening in the end walls of the view space, air is also added at a high speed compared to the sight gas flow Form of a flow adjacent to the end wall initiated. The direction of rotation of the eddy flow that arises around the central opening is equal to the direction of rotation of the visual flow in the visual space. This measure is intended to prevent a disturbance in the sighting caused by streak formation on the fixed end walls with the same degree of success as in the case of spiral air classifiers with rotating end walls. The sealing air must have a correspondingly high pressure in order to maintain the rotational flow required for the sighting in the area near the wall. A separate compressed air supply is required for this, which causes a corresponding construction effort and energy expenditure. As with a version with rotating disks, however, the known construction can lead to disturbing eddy formation. Apart from that, an ideal flow field for the sighting cannot be generated. Finally, blowing in sealing air may lead to undesired cooling of the sifting gases.

In contrast, the invention aims to provide a spiral wind sifter which enables an accurate screening of finely ground solids in the micrometer range, such as talc, graphite, etc., with low energy consumption and air consumption under extreme pressure and temperature conditions. This is achieved according to the invention in a spiral air classifier of the type specified in the introduction in that fixed guide disks are arranged at a distance from the side walls of the viewing space, the edges of which form annular gaps with the side walls and which limit the actual viewing space.

The side walls of the viewing space are preferably too conically expanded towards the center of the viewing space.

Dar spiral air classifier according to the invention has no mechanically movable internals, such as. B. rotors, and is therefore suitable for exceptionally high pressure and temperature ranges. By designing the viewing area according to the invention, a uniform flow field and uniform visibility can be ensured over the entire width of the viewing area. This increases the separation quality «In particular, precise screening can be achieved with low energy consumption and sifting gas. Since in the classifier according to the invention the stationary guide disks are arranged at a distance from the lateral viewing area boundaries and are therefore not connected to them in the area of the viewing zone, it follows that no visible material can get into the fine material from the viewing zone near the wall and only fine material that has been sighted can pass between the guide disks . A deceleration of the spiral flow of sight gas takes place in the vicinity of the side view boundary, but does not interfere.

The invention is explained in more detail below using an exemplary embodiment with reference to the drawing, in which Fig. 1 shows a spiral wind sifter according to the invention in a section perpendicular to the axis of the viewing space and Fig. 2 shows a section along the line (Π-Π) in Fig. 1 shows.

The high-performance wind sifter (1) is designed as a spiral wind sifter in accordance with Hg. 1 and 2, which is intended for the dry separation of dusty substances in the finest grain area, such as talc, graphite, etc. In this spiral air classifier, the material to be sighted, which is introduced into a classifying room (4) by a metering device (2) via a sighting material entry (3), is heated by gas jets of 500® - 700 ° C, which are emitted by a sighting gas entry (3 *) via guide vanes ( 5) Enter tangentially into the flat cylindrical viewing area (4), flushed out. The individual particles of the grain collective are accelerated and entrained on the one hand by the gas jets, which flow spirally through the visible space from the outside inwards, but are also subject to the centrifugal force, which deflects them outwards again. Depending on the mode of operation of the air classifier, the entrainment force of the flow predominates with a certain shape and mass of the individual particle and the particle is discharged as a fine material with the gas stream, or the centrifugal force and the particle are driven off to limit the visible space and finally via a coarse material application (6) as coarse material carried out.

According to the invention, the side walls (7) of the viewing space are flared towards the center. At a distance from the side walls (7), rigid guide disks (8) are arranged which extend from a central outlet opening (9) for the classifying gas with the fine material or with one Extend the connecting piece on the opposite side wall (7), limit the actual viewing zone and form annular gaps (10) with the side walls. This prevents uncontrolled intrusion γοη coarse material into the fine material discharge -2-

Claims (2)

AT 396 879 B prevented along the side of the air classifier. In the wind sifter explained above, a uniform flow field is present over the entire width of the viewing area, which also ensures the same visibility. The invention thus enables the construction of a very simple and therefore inexpensive air classifier, which can be used very economically as a pressure-tight closed system without rotating parts and without air supply, even in the high pressure and temperature range, but also in the negative pressure range and at low temperatures, and an excellent separation effect GUARANTEE CLAIMS 1. Spiral air classifier, with a substantially cylindrical, free of built-in view space with fixed side walls, with a sight gas supply through a guide vane grille coaxially surrounding the view space, with a sight material supply on the outer periphery of the view space, with a discharge device for that on the outer periphery of the view space withdrawn coarse material and with a central connecting piece for the discharge of the sighting gas with the fine material in an end wall of the viewing area, characterized in that fixed L at a distance from the side walls (7) of the viewing area (4) are arranged (8), the edges of which form annular gaps (10) with the side walls (7). 2. Spiral air classifier according to claim 1, characterized in that the side walls (7) of the viewing area (4) are flared towards the center of the viewing area. For this 1 sheet drawing -3-