SU839605A1 - Loose material classifier - Google Patents

Description

The invention relates to the industry of building materials and is intended primarily for the classification of expanded clay gravel. A device for the classification of bulk materials flj is known. The disadvantage of this device is the bulkiness and complexity of the design. The classifier of bulk materials is known, which contains concentrically arranged inner and outer perforated drums with thresholds on working surfaces 21. A disadvantage of the known device is the small specific performance with relatively large dimensions. The purpose of the invention is to increase the fair productivity. The goal is achieved by the fact that a part of the inner drum in the loading zone is made of a bar and on the outside in the zone of contact between the bar and perforated sieving surfaces there is a burglar ring, with an annular gap in the outer bar bath, and the bars are installed at an angle of 5-45 ° to the longitudinal axis of the classifier. In this case, the thresholds have a height not exceeding the diameter of the perforation adjoining holes. In addition, the perforation holes in the outer drum in the zone opposed to the bar surface are made countersunk, while the classifier is equipped with a chute with a baffle plate inclined in the direction of rotation of the drum at an angle of 35-45 to its longitudinal axis. Figure 1 shows schematically a classifier, a longitudinal section of a general view; figure 2 - estrus with a baffle plate. Classifier of bulk materials, contains an internal perforated drum 1, part of which is made of round, square or rectangular rods 2. inclined at an angle of 5-45 ° to the drum forming part opposite to the movement of the material with a clearance between the rods 0-2 mm smaller than the largest size screened fractions (clearance (between rods 0-2 mm less than the maximum size of the screened fraction and depends on the length of the rods, amplitude

their oscillations - the longer the length, reS the greater the amplitude of oscillation, the smaller the lumen size cS), the fender ring 3, in front of which an annular gap is made in the outer drum: 4, dividing the outer perforated drum into the screening surfaces 5 and b, thresholds 7, which can be made of round bars, square, etc. sections installed on the working surfaces of the inner drum 1 and the screening surfaces 5 and b of the outer drum, the loading chute 8 with the fire bottom 9, inclined in the direction of rotation of the drum at an angle of 35-45 to its horizontal axis, the bunker 10-13 of the finished product respectively for fractions up to 5, 5-10, 10-20 and 20-40 mm.

Classifier works as follows.

The mixture of the fraction through the loading station 8 enters the part of the inner drum, made of rods 2, with a gap between them, for example 8 mm. Due to the high throughput of 80-90% of fractions up to 10 mm, it passes between the rods and falls on the screening surface 5 of the outer drum with a diameter of 5 mm, and circular thresholds of 5 mm height. Thresholds delay the fraction less than 5 mm, which spills through the holes and into the bunker 10 of the finished product, and the fraction of 5-10 mm freely rolls through the thresholds and through the annular gap enters the bunker 11 of the finished product. The bumper ring 3 prevents the fraction of 5-10 mm from entering the screening surface b of the outer drum. Fractions above 10 mm with a fraction content of 5–10 mm up to 10–20% from the surface b are advanced through rods. The perforated part of the inner drum 1 has a hole diameter of 20 mm and thresholds of 20 mm height. As the inner drum advances, the annular thresholds constantly delay the fraction up to 20 mm, which passes through the openings to the screening surface of the outer drum b with an opening diameter of 10 mm and circular thresholds of 10 mm height, and the fraction above 20 mm passes freely through the thresholds and enters bunker 13 finished products.

Of the fractions 5-20 mm, which entered the screening surface 6, the remaining 10-20% fractions 5-10 mm are retained around the perimeter by thresholds and through the holes pass into the bunker 11 of the finished product, and the fraction 10-20 mm freely rolls through the thresholds and enters the bunker 12 of the finished product.

Thus, the implementation of part of the inner drum of the rods 2, tilted towards the movement of the material at an angle of 5-45 ° to the forming drum / contributes to the fullest screening at this part of the drum of small fraction up to 10 mm, which leads to unloading of perforated surfaces 5 and b.

The inclination of the ponds at an angle of less than 5 ° does not ensure the retention of the fines fraction, which leads to clogging of the coarse fraction, the fines and an increase in the size of the screening surface. The inclination of the bars at an angle of more than 45 ° is not rational because of the large hyperbolic curvature of the inner surface of the drum, which contributes to the long-term retention of the granular material in it, and, consequently, debris from the coarse fraction (more than 10 mm).

An end ring mounted outside the inner drum in the zone of contact between the rods and the drum prevents the fines from passing through. At the next screening surface b of the outer drum and together with the annular gap, it also helps to unload the screening surface b.

The execution of the annular thresholds with a height not exceeding the diameter of the adjacent holes promotes the separation of the fraction, i.e. delays the fraction with dimensions equal to or less than the threshold height, and freely passes the fraction with dimensions larger than the threshold height, which leads to increased productivity and improved quality of screening.

The chute with a baffle inclined in the direction of rotation of the drum at an angle of 35-45 ° to its horizontal axis leads to the material being fed to the screening surface tangentially, which helps reduce the wear rate of the screening surface and the destruction of the classified material. At the bottom tilt angle, more material falls on the screening surface, abrades it and collapses, and, at an angle of less than 35, the material falls on the bumper bottom, crushes and forms stagnant zones, worsening the material flow. Making the holes of the screening surface 5 of the outer drum (for sifting out the fine fraction) conical helps to prevent clogging of their classified material, which also improves the performance of the classifier.

Claims (1)

1. Classifier of bulk materials containing concentric