SU1510958A1 - Pneumatic classifier - Google Patents

Abstract

The invention relates to the separation of bulk materials in an upward air flow by size and can be used in the chemical, grain processing, construction and other industries of the industry. The purpose of the invention is to improve the efficiency of classification by optimizing the technological mode of separation. The pneumatic classifier consists of a vertical shaft (VS) of 1 rectangular cross section, inside of which there are sets of 2 double-slope 3 and flat 4 perforated shelves (PP) of equal width, which is half the width of VSh1. In addition, PP3 and 4 of each set of 2 are set at the same level, and the subsequent set of 2 is rotated around the vertical axis VS1 relative to the previous one by an angle of 180 °. At the same time, PP3 and 4 are displaced one relative to the other in plan by half the width of the VS1. The classifier is equipped with nozzles 6-9, respectively, of the supply of the source material and air, the collection of light and heavy products. The source material from the pipe 7 enters the VSH1 at PP3 and 4. Air is supplied from the bottom through the pipe 9. The material poured in PP3 and 4 and in contact with the upward air flow is divided into a small product that is carried away through pipe 8 and a large product removed through pipe 9. Due to the PP3 shifted relative to PP4, the cross sections of the classifier and surface phase contact increases. Rotation of each set of 2 through 180 ° allows the material to be evenly distributed along the height of the HS1 and reduces the negative effect of the wall effect on the separation efficiency. 3 il.

Description

 . 31510958

perforated shelves (GSH) of the same width, which is half the width of the VSH 1. In addition, the PP 3 and 4 of each set 2 are installed on one. level, and the next set of 2 is rotated around the vertical axis of the HS 1, relative to the previous one by an angle. 1, At the same time, PP 3 and 4 are displaced one relative to the other in terms of Q width of the width of the VS 1, the Classifier is equipped with nozzles 6–9, respectively, of the supply of raw material and air, collection of light and heavy products. The source material from the nozzle 7 by the air | 5 stumbles in VS 1 at Ш1 3 and 4. Air is supplied from the bottom through nozzle 9. The material poured in PP 3 and 4 and in contact with the upward air flow is divided into a small product that is carried away through the pipe 8j and a large product removed through the pipe 9. Due to the fact that PP 3 is shifted relative to PP 4, the flow sections of the classifier and the contact surface of the phases increase. Rotation of each set of 2 through 180 ° allows the material to be evenly distributed over the height of BS 1 and reduces the negative effect of the wall effect on separation efficiency. 3 il.

The invention relates to the separation of bulk materials in an upward air flow by size and can be used in chemical, grain processing, construction and

other industries.

The purpose of the invention is to improve the classification efficiency for: by optimizing the technological mode of separation.

Figure 1 presents the pneumoclassification, General view; figure 2 - perforated shelves, view in axonometry; on fig.Z - the same, top view.

The pneumatic classifier consists of a vertical shaft of rectangular section 1. Inside the mine there are sets of 2 perforated double-slope 3 and flat 4 shelves, with the double-slope shelf shifted half the width of the shaft in the horizontal plane of the relatively flat shelf and each set 2 is rotated 180 around the axis of the apparatus. The width of the shelves 3 and 4 is equal to each other and is half the width of the shaft. A separator 5 is installed above the shaft, which prevents the random removal of large particles from the classifier. Pipe 6 serves to feed the source material, pipe 7 to feed air, pipe 8 to output the fines, and pipe 9 to exit the coarse fraction.

Air classifier works as follows.

The source material is continuously fed through pipe 6 into the working area and moves down along shelves 3 and 4. Thanks to the fact that dvukhskatna

25

thirty

5 0 5

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five

the shelf is shifted in the horizontal plane with respect to the flat shelf, the flow area of the apparatus, and, consequently, the contact surface of the phases are increased compared with the limestone device.

Air moving through the pipe 7 towards the material, which, skirting the shelves 3 and 4 and the passage through the perforated inclined sections, penetrates the moving layer of bulk material in several directions due to the rotation of each set 2 by 180 around its axis, thereby uniformly distributing the particles of the material in height mine, resulting in a significantly increased surface contact of the phases. In addition, due to the rotation of each set of shelves 180 ° around its axis, the air is divided into three streams, which reduce the negative influence of the wall effect on the quality of material separation.

The light fraction is removed through the pipe 8, and the heavy fraction through the pipe 9.

When testing the model of this apparatus on a polydisperse material with a wide particle size distribution, for example, the charge of the electrode plant, the extraction efficiency (at a boundary size of 0.2 mm) was 95.5%, while the prototype had 90.8%, and the content of this class was large the product was insignificant and was equal to 1-2%. The performance of the proposed apparatus increased by 33% compared to the prototype,

The use of the proposed pneumatic classifier for separating bulk materials by the upward flow of gas provides, in comparison with the prototype, an increase in the quality of separation and an increase in productivity due to more complete use of the working volume of the apparatus and an increase in the contact surface of the phase due to the displacement of the gable shelf by half the shelves and the rotation of each set of shelves by 180 around its axis; reducing the size of the apparatus and low aerodynamic resistance due to reducing the number of contact elements while maintaining high separation quality; increased separation efficiency due to more intense air exposure of the material in several directions.

Claims (1)

Invention Formula Pnevmklassifikator, including a housing in the form of a vertical shaft. located inside the case of sets of flat and double-sloped perforated shelves, each material supply nozzle located in the upper part of the case, air supply nozzle located in the lower part of the case, finished product nozzles located in the upper and lower parts of the case, characterized in that in order to be effective classification by optimizing the technological mode of separation, the flat and double-sloped perforated shelves of each set are set at the same level, the width of the flat shelves is equal to the width of the double-slope punched shelf and is half the width of the shaft, while the flat and the double-slope perforated shelves are offset by one relative to the other in plan by half the width of the shaft, with the flat and double-slope perforated shelves of each subsequent set rotated around the axis of the body relative to the previous set at an angle of 180 °. Jig