SE447210B - VERTICAL SURVIVAL Separator - Google Patents

Description

447 210 J! The diameter D4 of the annular body is preferably larger than the diameter D1 of the cylindrical inlet chamber. whereby D1 is larger than the diameter D6 of the cylindrical working chamber and the diameter D6 of said chamber is larger than the diameter D3 of the cylindrical limiting body, and where the diameter D3 of the limiting body is smaller than the diameter DB of the collecting pipe.

The tangential directions of the inlet nozzle, the first tangential outlet nozzle and the second tangential outlet nozzle coincide with the direction of rotation of the contents of the separator. One advantage of the arrangement of the present invention is the high efficiency for separating granules of foamed polystyrene. Tests carried out in pilot plants showed a separation efficiency for foamed polystyrene of 90 - 95%. Another advantage is that the arrangement according to the present invention is not particularly power-intensive, but the pressure drops are in the range of 50 - 100 kPa. An advantage is also that the added power is at the same time used for the separation of pollutants with a higher specific gravity.

The accompanying drawings show in schematic form an embodiment of the invention, in which Fig. 1 is a cross-sectional view of a vertical vortex separator, Fig. 2 is a cross-sectional view of the annular body, Fig. 3 is a cross-sectional view of the inlet nozzle, Fig. 4 is a cross-sectional view of the first outlet spout r- and Fig. 9 is a cross-sectional view of the second outlet spout.

With reference to Lig. 1, the lower part of the separator is formed by the cylindrical body of an inlet chamber 1 with a diameter D1, in the lower part of which an inlet nozzle 2 is arranged tangentially. A cylindrical limiting body 3 with a diameter D3. which is terminated by a conical extension 31, is located concentrically inside the cylindrical inlet chamber 1. An annular body 4 with an outer diameter D4 is connected to the cylindrical inlet chamber 1 with a first outlet spout 5 tangentially arranged on the annular body 4. A cylindrical scar. bit chamber 6 with a diameter D5 is concentrically connected to the annular body 4, and the upper part of which is provided with a second tangential outlet spout 7. A concentric collecting pipe 8 with a diameter D8 merges into a truncated conical spout 9 and engages with the upper part of the cylindrical working chamber 6.

According to Fig. 2, the diameter D4 of the annular body 4 is larger than the diameter D1 of the cylindrical inlet chamber 1, which in turn is larger than the diameter D6 of the working chamber 6. The cylindrical end 61 of the lower part of the working chamber 6 projects into the annular body 4 .

The inlet nozzle 2 has, in accordance with Fig. 3, a tangential inlet.

According to Fig. 4, the first outlet nozzle 5 has a tangential outlet.

According to Fig. 5, the second outlet nozzle 7 has a tangential outlet.

The inlet nozzle, the first outlet nozzle 5 and the second outlet nozzle 7 are arranged tangentially in the described arrangement. It is also possible to arrange said inlet connection 2 in a spiral arrangement without therefore falling outside the scope of the present invention.

The vertical vortex separator operates as follows: the aqueous paper material enters tangentially under pressure over the inlet nozzle 2 into the cylindrical inlet chamber 1, where the rectilinear movement of the aqueous paper material changes to a rotating movement.

Depending on the centrifugal force, the material forms rotating rings with a fractional division according to specific 447 210 J! 4 weight. The limiting body 3 contributes to the formation of the lightest Iraqi. Upon subsequent passage of the material through the separator, the heavy contaminants in the annular body 4 are first separated off. These heavy contaminants are removed from the annular body 4 over the first tangential outlet 5 into a collecting chamber (not shown). The light contaminants are collected in the cylindrical body of the working chamber 6 at the geometric axis of the separator and are removed together with a small amount of the material, about 10%, over the truncated conical nozzle 9.

The classified material is removed over the second tangential outlet nozzle 7.

Claims (2)

10 15 20 25 30 447 210 Patent claims 1. Vertical vortex separator for classification of aqueous paper material. in particular for separating polystyrene foam, which separator comprises a cylindrical working chamber (5) and a cylindrical inlet scanner (1) down a concentrically arranged. cylindrical restraining body (3) down a conical extension (31) at its downstream end. each separator is provided with at least one inlet nozzle (2) and at least one outlet nozzle (5. 7). The cylindrical inlet scanner (1) is concentrically connected to the characteristic that it is a ring-shaped jug (4). whose outer wall carries a first tangentially directed outlet spout (5). it is true that the annular chamber (4) is concentrically connected to the cylindrical working scanner (6). one end (61) of which projects into the annular chamber (4) and the other end of which is provided with a second tangentially directed outlet spout (7) as well as a concentrically arranged collecting tube (8). one end of which protrudes into the arhet chamber (6). A vertical vortex separator according to claim 1, characterized in that the dianeter (D¿) of the annular body (4) is larger than the diameter (DI) of the cylindrical inlet scanner (1). that the dianeter (DI) of the cylindrical inlet scanner (1) is larger than the dianeter (DG) of the cylindrical working scanner (6). that the diameter (DG) of the cylindrical working scanner (6) is larger than the diameter (Da) of the cylindrical boundary body (3). and that the diameter (D3) of the cylindrical boundary body (3) is: inner than the diameter (Da) of the collecting tube (8). -