SU871827A1 - Jet classifier - Google Patents

Description

The invention relates to the enrichment of the hydraulic classification of granular materials, and can be used in the mining, construction and other industries. A cyclone-type device for separating gases and pulps is known, which includes a cylindrical body 6 tanrennial1m shedn and HiMH centrifugal junctions i within which a tube with filter element p is concentrically packed. The disadvantage of this device is clogging of the filter element. The closest to the proposed is an inkjet classifier, including a housing, loading and unloading pipes, a soil collector located inside the housing distribution manifold with nozzles 1,2 3. The disadvantage of this device is the inability to create a uniform supply of the original power to all the jets due to losses head along the length of the collector pipe, which reduces the accuracy of the division of the slurry. The purpose of the invention is to ensure a uniform outflow of the jets and to increase the division accuracy of the source material. This goal is achieved by the fact that the distribution manifold is cambered in the form of a chamber and a tangentially sealed pipe | In the case of a diffuser, the body of the classifier is made expanding in the direction of a soil collector with a taper angle of 10-15. FIG. 1 is a schematic representation of a classifier, a vertical section; FIG. 2 - the same, top view with the cover removed. The classifier includes a diffuser and potential box 1 for the supply of pulp, one side of which is taigential and the second close to the nozzle

connected to the distribution manifold 2 of the initial power supply, jet-forming branch pipes 3, passing from the collector 2 into the working space in the housing 4, collector 5 of the small product, located above the working volume, discharging branch pipe 6 of the small product, connected to the collector 5 of the small product, primer box 7, connected to the bottom of the case.

Inkjet classifier works as follows.

The original pulp in the diffuser-tangential duct 1 enters the distribution manifold 2. The inflow of the pulp is organized in such a way that the incoming jet is completely extinguished within the collector for which the diffuser is used. From the tangential side, the entrance is smooth, from the normal side - a sharp change in the cross section here forms a local vortex, which contributes to the further expansion of the jet. The result is a fan of the trajectories, uniformly pokryvavtsy all jet-forming nozzles. Axial pressure at the inlets to the nozzles .: with technical accuracy equally. From the collector 2 through the jet-forming nozzles, the pulp enters the working volume. The ratio of inertia, gravity and drag forces to the upward flow determines the boundary grain. In order to provide the same conditions for both the outer row of jets and the central bodies, the apparatus body 4 is expandable, which provides all-round, wider outer jets without shielding effect. The angle of expansion of the hull corresponds to (or somewhat exceeds the angle of expansion of the jet. The upward flow of the small fraction is carried

upwards, enters the collector 5 of the small product and is discharged through the pipe 6. The coarse fraction is lowered into the soil collecting container 7, from where it is discharged onto the transport belt.

The introduction of this device allows to increase the separation accuracy and increase the yield of the commercial product without reducing its quality.

Claims (2)

1. USSR author's certificate number 497057, cl. B 03 B 5/34, 1969. 2. USSR author's certificate number 329136, cl. B 03 B 5/02, 1969 (prototype).