RU2139150C1 - Cylinder screen - Google Patents

Abstract

FIELD: construction, mining and other branches of industry. SUBSTANCE: cylinder screen comprises screening surface of sieves in the form of separate rectangles and equilateral triangles fixed to a frame between the end face jaws for rotation, the sieves are installed on the cylinder framework made of separate sections, each manufactured in the form of a right triangular prism, formed by oblique section of cube. The like ribs of the adjacent sections are connected at a right angle. EFFECT: enhanced efficiency of screening due to intensive agitation and segregation of material. 11 dwg

Description

 The invention relates to techniques for the classification of bulk materials and can be used in the construction, mining, metallurgical and other industries.

 Known drum screen (AS USSR N 613830, class B 1/1976) containing a screening surface located between the end cheeks, loading and unloading devices and drive.

 A disadvantage of the known drum screen is the insufficient mixing intensity - when the drum rotates, there is a simple glide of the screening mass on the inner surface of the drum.

 Closest to the proposed invention is a drum screen, including a screening surface made of separate equilateral triangles installed around the perimeter of the drum in the form of a tetraidal screw column located between two end cheeks, loading and unloading devices and a drive (AS USSR N 1360814, C. B 07 B 1/00, 1987) - prototype.

 A disadvantage of the known drum screen is the insufficient intensity of mixing the screening mass due to some stationary motion of the streams of the screened mass in a multi-start helical drum in the form of a helical tetraidal column with equal-pitch helical surfaces facing each other with the same number of strokes, as well as insufficient mixing intensity in the drum assembled from elements of the same size, size and configuration in the form of equilateral triangles forming in pop river section coaxial with the axis of rotation of the drum-flat shape polyhedrons.

 The technical solution to the problem is to increase the productivity and efficiency of screening.

 The problem is achieved in that in a drum screen, including a screening surface fixed between the frames located between the end cheeks, loading and unloading devices and a drive, the screening screen is made of sieves in the form of separate rectangles and equilateral triangles mounted on a drum frame made of separate sections , each of which is made in the form of a straight triangular prism, is formed by the cross section of the cube diagonally, and the edges of the same sections of the same name are connected under straight lines m angle.

The novelty of the invention lies in the fact that when mixing the screened mass in the proposed device, the mixing intensity significantly increases due to the message of the screened mass to additional cascading movements and mixing due to the fact that the drum, consisting of sections made in the form of a semi-cube and connected to each other in a certain way , is a hollow helical surface with broken helical lines of different pitch and with different in number, directed towards each other screws my lines, in particular four helical lines in the opposite direction with a step S ₁ , and two helical lines with a step S ₂ , and the step in S _{1 is} twice as large as step S ₂ .

 In addition, the novelty is due to the fact that the elements from which the sections of the drum screen are assembled are different in area, size and configuration, therefore the mixing intensity increases significantly, since these elements, working as shelves, capture portions of a rumble mass different in volume and direct them towards each other, thus violating the stationary motion of mass flows in the drum.

 The novelty is seen in the fact that since the pitch of the helical lines of the main direction of the drum is twice as large as the pitch of the helical lines of the opposite direction and the number of their runs is also twice as large as the opposite, then along with the intensification of the mixing process mixing of the screening mass along the horizontal axis of the drum is ensured, which eliminates the need to mount the drum at right angles to the horizontal, the center of symmetry of the cross section of the drum is shifted relative to the axis of rotation of the drum, and the mixing process I intensifies, since the stationarity of the movement of streams of crashing masses is violated.

 In FIG. 1 shows a drum screen, general view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - drum, general view; in FIG. 4 - drum, top view; in FIG. 5 is a section bB in FIG. 1; in FIG. 6 is a section BB in FIG. 1; in FIG. 7 is a section GG in FIG. 1; in FIG. 8 - section DD; in FIG. 9, 11 - assembly diagram (assembly) of the drum section, for example, by welding; in FIG. 10 - section of the drum, axonometric projection.

The drum screen consists of two end cheeks 1 (Fig. 1, 2) between which the frame of the drum 2 is mounted, having a loading 3 and unloading 4 trays and made of sections made in the form of a straight rectangular prism formed by a diagonal cross-section of the cube, the ribs of the same name adjacent sections are connected at right angles, and, in addition, is located above the hopper 5. On one of the cheeks there is a pinion gear 6. The screen drum is mounted on the support rollers 7. The screen is equipped with a drive that includes an engine 8, gear 9 and gear 10, cat paradise is meshed with the drum gear 6. The frame 2 is formed as a hollow helical screw surface with broken lines of different pitch and different in quantity, directed towards each other helical lines, in particular four-helical lines in opposite directions with step S ₁ and two screw lines with a step S ₂ , and step S ₁ is twice as large as step S ₂ . (Fig. 3, Fig. 4.). The screening surface is made of sieve 11 in the form of separate rectangles and equilateral triangles, which are fixed on the frame 2 along the perimeter of the drum, creating a multi-helical screw surface with a different number of entries and with a pitch of helical lines and with a different passage length across the drum 2 not only in size , but also in form (Fig. 3, 6, 7, 8), intensifies the process of mixing the screened masses. The center of symmetry (O ₁ ) of the inner surface of such a drum 2 in each cross-sectional element along the length of the drum 2 is shifted relative to the axis of rotation of the drum (O ₂ ), which violates the stationary motion of the crashing masses.

Drum 2 is mounted in sections, for example in FIG. 9, (shown in axonometric projection is the assembly diagram of the four sections A, B, C, D one from the other). Each of the sections is made in the form of a triangular prism formed by a diagonal cube section (Fig. 10), which have other triangles with a base "e" and two sides "a". Moreover, the quadrangle and two edges of the triangle are connected by the ratio of the lengths of their edges in such a way that the edges of the triangles and the edges of one of the two pairs of edges of the quadrangle. The sections are connected to each other (Fig. 11) by lateral quadrangular faces in such a way that the edges of the same name of the triangular faces of adjacent sections (semi-cubes) are located at an angle of 90 ^o .

As a result of connecting the sections around the perimeter of the drum, a multi-start surface is formed with a different number of approaches, in particular four helical lines (Figs. 3, 4) of one direction with a step S ₁ : 12-18; 19-24; 25-31; 32-27; and two broken helical lines of the opposite direction in increments of S ₂ : -
18, 24, 30, 36, 16, 22, 28, 34, 14, 20, 26, 32, 12;
- 37, 17, 23, 29, 35, 15, 21, 27, 33, 13, 19, 25.

 One of the four broken helical lines of the main direction 12, 13, 14, 15, 16, 17, 18 and one of the two helical lines of the opposite direction 18, 22, 28, 34, 14, 20, 26, 32, 12 are shown in FIG. 3 and 4 thickened lines.

 Drum screen works as follows. Bulk materials are loaded into the drum 2 (Fig. 1) through the loading tray 3. When the drum 2 rotates, the masses of bulk cargo move from loading to unloading, along the horizontal axis, while the quadrangles and triangles of the sieves 11 of the drum 2 are located at different angles to the axis of rotation of the drum and to each other, as a result of the movement, crests and lines connecting these sieves are created that play the role of elevators masses of bulk materials. Since triangles and quadrangles are different in area, they lift masses of bulk materials of different volumes and throw them against each other, while flows of components of different power and energy intensity of different directions arise, which intensifies the mixing process, materials are classified by size and size intense segregation. Since the dimensions of the sides of the cross section along the length of such a drum, the shape and location, the center of symmetry change, the disturbance in the stationary motion of the masses of bulk materials is aggravated, i.e., intensive mixing and classification of materials by size takes place. The presence of broken helical lines directed towards each other with a different number of approaches and a different pitch creates counter flows of bulk materials of different mass and volume, thus violating the stationary motion, which leads to an increase in screening efficiency.

Claims (1)

 A drum screen comprising a screening surface mounted between the frame located between the end cheeks, loading and unloading devices and a drive, characterized in that the screening surface is made of sieves in the form of separate rectangles and equilateral triangles mounted on a drum frame made of separate sections, each of which it is made in the form of a straight triangular prism, is formed by the cross section of the cube diagonally, and the edges of the same sections of the same name are connected at right angles.

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