RU2117230C1 - Apparatus for classifying lumpy materials - Google Patents

Abstract

FIELD: metallurgy, namely, technique for separating lumpy materials by small- and large-size fractions in different industry branches. SUBSTANCE: apparatus includes charging port in body of chamber of classifier, air distributing grate with charging zone and inclined step-cascade guide arranged between charging port and air distributing grate. At pouring classified material along cascade due to impact action of its steps conglomerated layer of material and its conglomerated lumps are separated by particles. EFFECT: accelerated simplified process of material separation in charging zone, enhanced quality of classifying. 1 dwg

Description

 The device relates to metallurgy, to the technique of separation of multifractional bulk materials - coke, sinter, limestone, ore, etc. - on large and small fractions. It can also be used in various industries.

 Known sorting devices - screens - for sieving metallurgical and other bulk materials on the canvas with holes of a given size [1].

 The disadvantages of these devices are the difficulty of separating small classes, clogging of holes with material, intensive wear of paintings and holes [2].

 These shortcomings are eliminated in pneumatic classifiers, divided into the following main types [3]: a) mechanical intra-circulation (centrifugal-lobed); b) air passage with rotating jack blades; c) air passage without the use of moving mechanical devices; g) chamber.

 A common drawback of these classifiers is the need for increased air velocities (hence, its flow rate) for removal from the material stream and pneumatic transportation of the separated fine fractions (for example, about 0-5 mm). The disadvantage of classifiers with rotating mechanical devices is, in addition, structural complexity.

 Partially, these shortcomings are eliminated in the block material classifier closest to the proposed device [4 - prototype], which contains a loading window and an air distribution grill, into the loading zone of which a multifractional piece material is blown, purged with air separating small and large fractions, the first of which move under slope on an air cushion, while the latter are moved by the grill in the opposite direction.

 The disadvantage of this device (prototype) is, in particular, the short duration of stay of the mixed layer of materials in the loading zone on the grate, as a result of which the process of separation of small and large fractions is not complete enough, causing a decrease in the quality of classification. This drawback is especially characteristic for the classification of conglomerated (due to wetting or for other reasons) materials - with conglomerates of large and small fractions, the separation of which during a short stay on the grate in the loading zone is difficult to achieve.

 The technical problem solved in the claimed device is to facilitate the separation of material, especially conglomerated, in the loading zone of the classifier, which helps to improve the quality of classification when dividing the material into large and small fractions.

 The technical result is achieved by the fact that in the device for classifying bulk materials containing a loading window and an air distribution grill, equipped with an inclined guide, which is made in the form of a stepped cascade and is located between the loading window and the air distribution grill.

 The step-cascade guide provides preliminary processing of the material before it enters the loading zone on the grate — its “dissolving”, separation under the action of step-cascade movement. The repetitive collisions of the stages of the cascade and the material, especially conglomerated pieces into separate pieces and particles, which significantly accelerates and facilitates the process of air separation of particles during the short-term stay of the material layer in the loading zone, improves the quality of classification in comparison with the prototype and other similar devices in which mixed , often conglomerated, the flow of the loaded material flows from the loading window directly to the grate, and a significant part of the trifle, having not time Arrived, falls into the coarse-grained group of the shared material.

 Thus, the distinctive features of the claimed device are necessary and sufficient to solve the technical problem.

 An example implementation of the inventive device for the classification of bulk materials is shown schematically in the drawing (other embodiments of the device within the scope of the claimed invention are possible).

 The device contains an air distribution conveyor inclined grate 1, equipped with air inlets 2 and 3 from the fan 4, respectively, in the loading zone 5 of the grating 1 and in the zone 6 of the grating 1 for small fractions. The camera 7 of the device has a boot window 8 and a tap 9 for aspiration.

 The device is equipped with an inclined guide 10 of the loaded material - a cascade with steps 11 located between the loading window 8 and the air distribution grill 1. In the lower part of the step-cascade guide 10 there is a movable shutter 12.

 The device operates as follows.

 Polyfractional (for example, with a particle size of 0-25 mm, 0-50 mm, etc.) material (for example, coke, sinter, limestone, etc.) through the loading window 8 of the chamber 7 enters the inclined guide 10 with cascade steps 11, along which it is poured into the loading zone 5 of the air distribution grill 1; air is blown into it by a supply 2 by a fan 4, also supplied through a supply 3 into a zone 6 of the grate 1.

 When pouring along a step-cascade guide 10, the loaded material, shoveling and hitting the stage 11, is divided both in its mass and in conglomerated pieces into separate pieces and particles and enters into the zone 5 of the lattice 1 in a divided "loose" form, which is essential facilitates the separation of small and large fractions in zone 5 during the short stay of the mixed layer in it, and provides high-quality separation of small (for example, 0-5 mm, 0-10 mm) particles moving along a slope on an air cushion in zone 6 of grating 1, from b the larger particles settling on the grate 1 (in zone 5) and transported by it to the opposite discharge end. The purged air is discharged to the suction through the outlet 9, the valve 12 reduces air leaks from the side of large fractions.

 The advantage of the proposed device is to facilitate the separation (separation) of the material, even conglomerated, in the loading zone and improving the quality of classification.

Claims (1)

 A device for classifying bulk materials containing a loading window and an air distribution grill, characterized in that it is provided with an inclined guide of the loaded material, which is made in the form of a stepped cascade and is located between the loading window and the air distribution grill.