SU1676683A1 - Classifier - Google Patents

Abstract

This invention relates to the separation of bulk materials. The purpose of the invention is to increase the efficiency of separation due to the cleaning of the coarse fraction. The classifier contains a cylindrical separation chamber (SC) 4, loading tangential nozzles (П) 1 and 2 for material and air input and П 3 for output of coarse fractions, successively located in the lower part of IC 4. Between loading N 1 and 2 there is an adjusting the element with the gap decreasing from them relative to the outer wall of the IC 4 is made in the form of inclined guide vanes (NL) 5 arranged one above the other. The angle of inclination to the horizon of each subsequent overlying NL 5 is smaller than the angle of inclination of the underlying N 5. In the center CK4 pipe 7 is for outputting the fines with a curved plate 8, partially covering it from NL 5. A curved baffle plate 9 is arranged opposite the plate 8 over P 3, with radial movement. Over P 3 from the side of nozzle 2 with a gap relative to the partition 9 and with the possibility of radial movement, an additional curvilinear partition 10 is installed. The starting material with air enters the CK 4 and the primary classification of the material takes place on the NL 5. Using partitions 9 and 10, the coarse fractions are cleaned. 1 il. cl

Description

The invention relates to the building materials industry, the paint and varnish industry, in particular to equipment for ultrafine separation of powdered materials, such as limestone, chalk kaolin, barium and others.

The purpose of the invention is to increase the efficiency of separation due to the cleaning of large fractions.

The drawing shows a longitudinal section of the classifier.

The classifier includes loading nozzles 1 for introducing material and a nozzle 2 for introducing air flow, a nozzle 3 for outputting a large fraction, a cylindrical separation chamber 4, a control element made in the form of guide vanes 5, an outer wall 6 of the chamber 4, a nozzle 7 for outputting a small fraction, curved plate 8, curved partition 9, additional curved partition 10.

The classifier works as follows.

The material subjected to classification enters the classifier through the pipe 1 for input of material.

At the guide vanes 5, the incoming material flow receives acceleration from the impact of the pneumatic flow coming from the nozzle 2 and through the gaps between the guide vanes 5. The primary classification of the material occurs, where the finished product is divided into a fine fraction, sent to the pipe 7 to output the finished product, and the main part of the material is classified in the separation chamber 4. Under the influence of centrifugal air flows, this part of the material continues to move near the surface of the wall 6, when this vortex air flows snatch ultrafine particles from the material stream and is sent to the pipe 7 to output the finished product.

In the peripheral zone of the separation chamber 4, a large fraction is re-divided by a partition 9 and an additional partition 10. A part of the material that moves along the inner surface of the partition 9 from the separation chamber 4 is subjected to additional classification and the separation of the ultrafine fraction of the material from the action of centrifugal air flows. Part of the material, which continues to move in the space between the partition 9 and the wall 6, is sent to the pipe 3 to output a large fraction. With the help of an additional partition 10, the output of a large fraction is controlled.

The position of the partitions 9 and 10 is regulated depending on the physical properties of the classified material.

The classifier of this design allows, as shown by the results of the tests, to increase the efficiency of the preparation of ultrafine powders in comparison with the known technical solutions, since the guide blades 5 are the primary classification of the material, and in the peripheral zone of the separation chamber with the help of partitions 9 and 10 there is a re-classification.

Claims (1)

Claim Classifier comprising a cylindrical separation chamber, located in its lower part a branch pipe for withdrawing a large fraction and loading tangential branch pipes for introducing material and air, an adjustable element placed between them, mounted with decreasing gaps from the charging branch pipes relative to the outer wall of the chamber, located in the center of the chamber branch pipe to output the fine fraction with a curved plate, partially covering it from the side of the adjusting element, installed opposite the curvilinear a plate above the nozzle for the withdrawal of a large fraction with the possibility of radial movement of a curvilinear partition, characterized in that, in order to increase the separation efficiency due to the cleaning of the coarse fraction, it is provided with an additional curvilinear partition installed above the nozzle for outputting the coarse fraction from the side of the air inlet with a gap relative to the curvilinear partition and with the possibility of radial movement, with the regulating element made in the form located one above the other NAC long guide vanes, and the angle of inclination to the horizon of each subsequent overlying blade is made smaller than the angle of inclination of the underlying blade.