RU2121890C1 - Loose material separating machine - Google Patents

Abstract

FIELD: mechanical engineering; separators for loose materials. SUBSTANCE: machine is made in form of at least three multisection drums installed coaxially with clearance. Outer drum is made conical, middle and inner drums are made cylindrical. Multistart screw surface of each drum is made of separate flat members. Flat members in outer and middle drums are made in form of isosceles and scalene triangles forming on working surface opposite direction screw lines with equal pitch and equal number of starts. Flat members in inner drum are made in form of scalene triangles with screw line pitch on its surface from loading to unloading exceeding pitch in opposite direction, and number of starts of different direction screw lines being different. EFFECT: enhanced quality of separation and increased size of sieving area at preservation of overall dimensions of machine. 8 dwg

Description

 The invention relates to techniques for the classification of granular media and can be used in mining, construction, metallurgy and other industries.

 Known drum screen (see AS USSR N 278396, class B 07 B 1/00, 1968), including a screening surface located between the end cheeks, loading and unloading devices and drive.

 Known drum screen (A.S. USSR N 1360814, published in B.I. 47, 1978, the authors have taken as a prototype), containing a screening surface made in the form of separate equilateral triangles installed around the perimeter of the drum in the form of a tetrahedral column .

 The disadvantages of the known devices are insufficient operational capabilities.

 The technical solution to the problem is to improve the quality of separation.

 The technical solution is achieved by the fact that in a machine for the separation of granular media containing a screening surface with screws channels on the inner surface, loading and unloading units, a drive, a screening surface is made in the form of multi-sectional drums coaxially installed with a gap, for example three, each of which is made of individual flat elements with the formation of a multi-helical surface, while the outer drum is made conical with a multi-helical surface of individual flat elements s in the form of isosceles triangles with the formation on the surface of the drum of multidirectional helical lines of equal pitch and the same number of strokes, the middle drum is made cylindrical of separate flat elements in the form of equilateral triangles with the formation on the working surface of multidirectional helical lines of equal pitch and the same number of strokes, and the inner drum made of cylindrical shape from equilateral triangles with the formation on the working surface of helical lines, the step of which from loading to unload more than the pitch of helical lines in the opposite direction, and the number of calls of multidirectional lines is different.

 According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed machine for the separation of granular media.

 The novelty of the proposal lies in the fact that due to the design features of the drums, a high separation quality is ensured, since multiple separation of bulk media is carried out in order to obtain different sizes of diffraction of bulk media.

 The invention is illustrated by drawings, where figure 1 shows a machine for the separation of granular media (General view, longitudinal section); in FIG. 2 - section AA in figure 1, figure 3 - outer drum with helical lines of equal pitch and the same number of entries conical shape; figure 4 is a section bB in figure 3; figure 5 - middle drum with helical lines of equal pitch and the same number of visits of a cylindrical shape; in FIG. 6 is a section BB of FIG. 5; in FIG. 7 - inner drum with helical lines, the step of which from loading to unloading is greater than the step of helical lines of the opposite direction, and the number of calls of multidirectional helical lines is different; in FIG. 8 is a section GG in FIG. 7.

 The machine for separating granular media contains four roller bearings 1, on which circular shells 2 and 3 are mounted, in which an outer drum 4 of a conical shape with a coaxial and rigidly mounted average 5 and inner 6 drums is mounted on it.

 The end openings on the loading side of the drums 4 and 5 are covered by a circular shell 2, and on the unloading side are open to display classification materials of granular media.

 The machine is equipped with a loading device 7, which is mounted (inserted) in the inner cavity of the drum 6, and discharge bins 8, 9, 10, 11.

 Sieve sections in the form of triangles are fixed on the frames of the frames of the drums 4, 5, 6 around their perimeter, creating hollow drums, inside which the masses of granular media are mixed.

 The sieves of the drum 6 have a maximum size of passage holes (cells), the sieves of the middle drum 5 have a size of passage holes (cells) smaller than drum 6, but larger than drum 4, and the sieves of drum 4 have minimum sizes of passage holes (cells).

 The machine is equipped with a drive, including a ring gear 12, rigidly fastened to the shell 2, the engine 13, the gearbox 14 and the gear 15, which is engaged with the gear 12.

 The outer conical drum 4 is made with a multi-start helical surface of flat elements in the form of sieves, so that on the outer surface multidirectional helical lines of equal pitch and the same number of approaches (Fig. 2, Fig. 3) are formed. Such a drum 4 is mounted from flat elements in the form of equilateral 16 and isosceles 17 triangles, alternately connected along the perimeter with their sides 18 and 19 in section 20. The bases of 21 isosceles triangles 17 are larger than its sides 18 and 19. The number of equilateral and isosceles triangles in section 20 , equal to at least six, should be an even number has no restrictions in the direction of their increase. In FIG. 2 and 3 show one of the helical lines in one direction 22-26 and one of the helical lines in the opposite direction 27, 28, 29, 25, 30.

 In such a drum 4, granular media move due to the natural slope of the cone of the drum 4. The middle drum 5 is made with a multi-helical surface of flat elements in the form of sieves with the formation on the outer surface of the drum 5 of multidirectional helical lines of equal pitch and the same number of strokes (Fig. 5 and 6). The outer working surface of the drum 5 is made of individual flat elements in the form of flat sieves in the form of equal-sized equilateral triangles 31, which are assembled in section 32 by their side faces 33 and 34, and each section along the length of the drum 5 is connected by the bases 35 of the triangle 31. The number of equilateral triangles 31 in section 32 is at least six and has no restrictions in the direction of their increase. The vertices of the triangles 31 form the right and left helical lines. For example, in FIG. 5 shows one of the right helix lines 36-43 and one of the left helix lines 44, 45, 38, 46, 47, 48, 49, 43.

 The inner drum 6 is made with a multi-helical surface, in which the pitch of the helical lines in the direction from loading to unloading the pitch of the helical lines of the opposite direction, and the number of visits of multidirectional helical lines is different.

 For example, in FIG. 7 and 8, the inner drum 6 is shown, in which the pitch of the helical lines (S) in the direction from loading to unloading is four times greater than the pitch of the helical lines of the opposite direction, and the number of calls of the helical lines in different directions is different. Such a drum 6 is assembled from equilateral triangles 50 in such a way that three helical lines with a step S and two helical lines in the opposite direction with a step of 0.25 S are formed. For example, at positions 51-56, 57-62, 63, 64, 65, 66 , 62 are marked with three helical lines in increments of S, positions 62, 55, 60, 65, 64, 63 and 61, 66, 54, 59, 64, 57 are marked with two helical lines in the opposite direction with increments of 0.25 S.

 Machine for the separation of granular media is as follows.

 Through the loading device 7, the bulk medium is loaded in a continuous flow into the inner cavity of the inner drum 6, which rotates together with the drums 5 and 4. The drums are rotated by the engine 13 through the gearbox 14 and gears 15 and 12. During the rotation of the drums, the bulk media perform a complex spatial motion along the helical trajectories, there is a classification of media by size. Particles of the media through the openings of the sieves of the inner drum 6 are discharged into the cavity of the middle drum 5, and large particles of the media, the sizes of which are larger than the sizes of the passage openings of the sieves of the inner drum 6, are discharged into the hopper 11 using helical lines of the main direction.

 Particles of granular media inside the middle drum 5 with the help of the outer helical surfaces of the inner drum 6 and helical lines of the main direction move along the horizontal axis of rotation of the drum. The intensity of the movement of masses of granular media is intensified by mixed inclined sieve of the middle drum 5, which provide an intensification of the process of mixing granular media. In this case, particles of granular media, the sizes of which are equal to or less than the size of the passage openings of the sieves of the middle drum 5, are discharged into the inner cavity of the conical outer drum 4, and particles of media, the sizes of which are smaller than the passage sizes of the sieves of the inner drum 6 and larger than the passage sizes of the sieves of the middle drum 5, are discharged into the hopper 10. Small particles of granular media in the inner cavity of the conical drum 4 due to the natural slope are moved from loading to unloading, separated - are discharged through passage openings of the sieve drum and 4 into the hopper 8, and particles whose size is larger than the diameter of the through holes of the outer drum 4 and smaller than the sizes of the through holes of the middle drum 5 are discharged into the hopper 11.

 The technical and economic advantage is to expand operational capabilities through the use of three coaxially mounted sieve drums and increase due to this sifting areas while maintaining the overall dimensions of the separation machines.

Claims (1)

 A machine for the separation of granular media, comprising a screening surface with screw channels on the inner surface, loading and unloading units, a drive, characterized in that the screening surface is made in the form of multi-sectional drums coaxially installed with a gap, for example three, external, middle and internal, each which are made of separate flat elements with the formation of a multiple helical surface, while the outer drum is conical with a multiple helical surface of individual flat elements in the form of isosceles triangles with the formation on the drum surface of multidirectional helical lines of equal pitch and the same number of strokes, the middle drum is made cylindrical of separate flat elements in the form of equilateral triangles with the formation on the working surface of multidirectional helical lines of equal pitch and the same number of strokes and the inner drum made of cylindrical shape from equilateral triangles with the formation on the working surface of helical lines, the step of which x from loading to unloading larger pitch helical lines in opposite directions, and the number of entries multidirectional helical lines is different.

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