SU786925A3 - Sorting machine for fiber-wood suspension - Google Patents

Description

The cylindrical sieve 6 has a radius smaller than the radius of the shell 7. The annular inlet 12 is formed by the outer surface of the cylindrical sieve 6 and the inner surface of the shell 7. The upper part 13 of the cylindrical ot 6 has no holes and the material flowing through the reflective partition passes into the annular inlet 12. Pipe 14 (fig. 2) is in fluid communication with the annular inlet 12 through the annular waste chamber 15. The annular chamber 15 is bounded by the inner surface of the housing 1, the annular septa 16 and 17 and the lower section 18 of the cylindrical sieve 6. The inner chamber 19 is formed by a cylindrical sieve 6. In the cylindrical sieve 6 a vane rotor 20 with scrappers 21 is mounted. from the drive belt 23. The product outlet port 24 is in fluid communication with the internal cavity of the chamber 19 through the annular chamber 25, the product outlet formed by the part of the housing 1, the annular partition 17 and the central column 26. Parts 18 facilitate the passage of useful products into the annular chamber 25 and exit through the nozzle 24. When the dissolving liquid enters through the windows 10 tangentially into the annular supply 12, the distribution of axial velocities in the channel changes in such a way that most of the waste flows in the axial direction around the shell 7 with a lower axial velocity than around a cylindrical sieve 6. Thus, the fibers in suspension; tends to pass through the cylindrical screen 6, and part of the waste, containing more solvent liquid and particle sizes of which are large, goes through the cylindrical screen 6, goes through the pipe for waste. The desired fibers pass through the perforations in the cylindrical sieve 6 into the inner chamber 19, then into the annular chamber 5 and exit through the branch pipe 24. The hydraulic scrapers 21 rotate in the inner chamber 19 with a small radial clearance between the outer surfaces of the blades and the inner surface of the cylindrical sieve 6. The rotation of the hydroplanes 21 causes hydrodynamic flow pulsations, directed radially outward, to remove accumulated waste material from the outside surface of the cylindrical screen 6. mule of the invention Sorting for wood a slurry suspension comprising a body, a cylindrical sieve with a perforation zone, a blade rotor installed in a cylindrical sieve, and branch pipes for supplying the suspension and the dilution fluid and removing the sorted fiber and waste, in order to increase the sorting efficiency, it has a shell mounted concentric to the cylindrical case on its outer side and forming a dilution fluid receiving chamber with the body, the dilution fluid supply nozzle is located opposite the ne zone a cylindrical screen is formed, and the shell is made with at least one window for tangentially supplying the dilution liquid to the cylindrical screen. Sources of information, Tips into account during the examination 1. US patent No. 3533505, 209-273, 1970.

FIG.

Claims (1)

Claim Sorting for wood-fiber suspension, including a housing, a cylindrical sieve with a perforation zone, a rotor blade mounted in a cylindrical sieve, and nozzles for 25 supplying a suspension and dilution liquid and removing sorted fiber and waste, characterized in that, in order to increase efficiency screening, it has a shroud mounted kontsentrich3 ₀ cylindrical sieve but with its outer side and with the housing defining a chamber for receiving diluting liquid, diluting liquid supplying pipe Position the opposite zone perforaimi cylindrical screen and shroud is formed at least one window for the supply of diluting liquid tangential to the cylindrical sieve.