PL236077B1 - Segmented drum screen - Google Patents

Abstract

The subject of the solution is a segmented drum screen, designed for accurate separation of all types of granular material into fractions, e.g. plant seeds, food materials or mineral materials. The screener between the sieves (5) inside the drum (3) has partitions (6) in the form of an inner ring with a diameter d from 0.98 D to 0.90 D of the ring diameter D, for a drum inclination of 1% to 4%. and from d 0.97 D to 0.80 D of the drum diameter, for a drum inclination of 4% to 8%. The partition stops the material moving in the drum, creating a layer on the partition with 7 to 12 diameters of the sieve holes for the material flowing through the sieve.

Description

Description of the invention

The subject of the solution according to the invention is a segmented drum screen, intended for the fine separation of all kinds of granular material into fractions, e.g. plant seeds, food materials or mineral materials.

For separation into fractions, e.g. of vegetable seeds, sieves with round holes set in an arithmetic pattern, usually from 1.0 mm to 5.0 mm, every 0.2 mm, or for coarse seeds from 3.0 mm to 9.0 mm every 0.5 mm. For separation into mineral and food material fractions, wire screens with square holes arranged in logarithmic sequence are used.

A characteristic feature of the drum screen is the slow movement of seeds against the inner surface of the screen. The maximum rotational frequency of the drum should be less than the critical rotational frequency. For the angle of lifting the seeds in the drum from 35 ° to 45 ° and for the angle of friction between the seeds and the 35 ° screen, a simplified relationship according to Kagan can be assumed for the maximum revolutions of the screen:

0.13 + 0.23

----- r = ---- '' ^s '

The material in the drum moves along the surface of the drum and along the screen at a speed that depends on the frequency of rotation of the drum, the angle of friction of the material against the screen surface, the angle of inclination of the screen drum in relation to the level and dosing speed. A similar solution of a continuous screen is described in PL 301 132 as a trough vibrating screen with screens placed one behind the other with larger and larger openings. The rotary screen known from the description PL 204 692 is made in the form of a cone or a set of cones of increasing diameter, eg PL 204 693. The drum screen described in the patent PL 356 949 consists of several cylindrical screens of increasing diameter, connected by flanges.

Screening efficiency according to prof. H. Błasiński is defined as the ratio of the content of a given fraction x _P in the screen P to the content of this fraction x _s in the screened starting material S and is a measure of the efficiency - the quality of the screen work η _Ρ .

^p -s

Sx _c

The design of the screening drum allows the angle of inclination of the screen drum to be adjusted. The screening drums contain from one to three screens pressed into the side surface of the drum in sequence from smaller to larger hole diameters.

The essence of the solution according to the invention is the construction of a drum screen with screens in which ring-shaped partitions are used, located at the end of each screen, in order to improve the efficiency of separating the granular material into screen fractions, retaining the material moving in the drum and creating a layer of flowing material.

Segmented drum screen with a drum diameter of 400 mm, consists of several individual screens 5, with a cylindrical profile, interconnected by clamps, together forming a drum 3, with partitions 6 in the form of rings between the screens 5, inside the drum 3 with an inside diameter d from 0.98 d / D to 0.90 d / D, for an angle a, drum inclination 3 relative to the horizontal from 1 ° to 4 ° and an inside diameter d from 0.97 d / D to 0.80 d / D, for the angle a of the drum inclination 3 from 4 ° to 8 °, the baffles 6 are made for each screen diameter separately according to the table.

The angle a of the drum 3 inclination with respect to the horizontal - the x-axis varies from 1-8 °, the greater the angle a, the greater the flow efficiency and the worse the separation quality, because an increasing amount of fine particles passes to the next fraction and deteriorates the screening efficiency . Reducing the angle a of drum 3 or reducing the dosing improves the screening efficiency but reduces the efficiency of the machine.

Screening operation.

The granular material is fed from the container 1, through the dispenser 2 to the rotating drum 3, from where, after sieving through the holes in the screens 5, it is poured into the receptacles 4.

The baffles 6 are in the form of inner rings with a diameter d, for the angle a of the drum inclination with respect to the horizontal - the x axis, in the range of 1 ° to 4 °, from 0.98 to 0.90 of the drum diameter D, and for the angle a of the drum inclination in the range of 4 ° to 8 °, 0.97 to 0.80 drum diameter D.

PL 236 077 Β1

The partition 6 stops the material 7 moving in the drum, forming a layer next to the partition: for small angles it is 7 screen opening diameters, and for large angles 12 screen opening diameters.

The design of the drum screen causes the finest fraction to be screened first, and then the fractions of increasing diameter. The residues, in the form of a mixture of coarse fractions, are discharged from the drum for further sieving on the next screens.

Partitions 6 are made for each screen diameter separately according to the table:

Table 1. Diameter of the orifice for the drum diameter D 400 mm and the angle a of the drum inclination from 1 ° to 4 °

Sieve diameter di [mm] 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 Multiplicity of dimension 7 di [mm] 7 10.5 14 17.5 21 24.5 28 31.5 35 38.5 42 Orifice size d [mm] 393 390 386 383 379 376 372 369 365 362 358 Diameter d / D reduction 0.98 0.97 0.97 0.96 0.95 0.94 0.93 0.92 0.91 0.90 0.90

Table 2. The diameter of the orifice for the drum diameter D 400 mm and the drum angle a from 4 ° to 8 °

Sieve diameter di [mm] 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 Multiplicity of dimension 12 di [mm] 12 18 24 thirty 36 42 48 54 60 66 72 Orifice size d [mm] 388 382 376 370 364 358 352 346 340 334 328 Diameter d / D reduction 0.97 0.96 0.94 0.93 0.91 0.90 0.88 0.87 0.85 0.84 0.82

The orifice diameter is variable for sieve diameters from 1.0-6.0 mm:

- for the drum inclination angle from 1 ° -4 ° change from 0.98-d / D to 0.90-d / D

- for the drum inclination angle from 4 ° -8 ° the change from 0.97-d / D to 0.80-d / D

This solution turned out to be useful for screening drum screens, which screen the fractions from fine to coarse in order. At the tested drum inclination angles, the insertion of a partition between the screens improved the screening efficiency and the efficiency of the screen separation in relation to the drum screen without an orifice-partition.

The advantage of the solution according to the invention is the increased screening efficiency with a high screen efficiency factor, the simplicity of the applied method and the improvement of the screening quality.

The solution according to the invention is shown in the example:

Example 1

Tomato seeds, obtained from artificially composed mixtures of fractions with the following composition: fraction 2.5 mm 50% and fraction 3.0 mm 50%, were dosed into the drum screen with the drum inclination in relation to the level at a 8 ° and the drum diameter D = 400 mm and the diameter of the partition in the form of a ring metal d = 360 mm. Tomato seed dosing rate 10 kg / h. The samples of seed fractions screened with and without a barrier were analyzed. The screening efficiency improved from 77% to 99% with the same device operation parameters.

Claims (2)

Patent claims 1. Segmented drum screen with a drum diameter of 40 mm, consisting of several screens 5 interconnected, characterized in that between the screens 5, inside the drum 3, there are partitions 6, in the form of rings with an internal diameter d from 0.98 d / D to 0.90 d / D for the angle a of drum inclination 3, relative to the level from 1 ° to 4 ° and the inner diameter d from 0.97 d / D to 0.80 d / D, for the angle a of drum inclination 3, from 4 ° to 8 °. 2. Segment screen according to claim 1, characterized in that the baffles 6 are made for each screen diameter 5 separately according to the table: Orifice diameter for drum diameter D 400 mm and drum inclination angle from 1 ° to 4 ° Sieve diameter di [mm] 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 Multiplicity of dimension 7-di [mm] 7 10.5 14 17.5 21 24.51 28 31.5 35 38.5 42 Orifice size d [mm] 393 390 386 383 379 376 372 369 365 362 358 Diameter d / D reduction 0 _? 98 0.97 0.97 0.96 0.95 0.94 0.93 0.92 0.91 0.90 0.90 PL 236 077 Β1 Orifice diameter for drum diameter D 400 mm and drum inclination angle from 4 ° to 8 ° Sieve diameter di [mm] 1.0 l _f 5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 Multiplicity of dimension 12 di [mm] 12 18 24 thirty 36 42 48 54 60 66 72 Orifice size d [mm] 388 382 376 370 364 358 352 346 340 334 328 Diameter reduction d / D 0.97 0.96 0.94 0.93 0.91 0.90 0.88 0.87 0.85 0.84 0.82 Drawings