RU2164450C2 - Revolving screen - Google Patents

Abstract

FIELD: equipment for classification of loose materials; applicable in construction, mining, metallurgical and other industries. SUBSTANCE: revolving screen includes conical sifting surfaces located between end webs. Conical sifting surface is made of successively installed sections, each made in the form of mounted two pairs of triangles connected to each other by side walls. The first pair is made of two similar isosceles triangles, while the second pair is made of isosceles triangle equal to that of the first pair and equilateral triangle. Each subsequent section is turned relative to preceding one through 90 deg. Revolving screen includes loading and discharging devices and drive. EFFECT: higher productivity and screening efficiency. 7 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 07 1/22, 1976) containing a screening surface located between the end cheeks, loading and unloading device and drive.

 A disadvantage of the known screen is the lack of mixing intensity - when the drum rotates, there is a simple sliding of the screen 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 a cylindrical drum in the form of a helical tetrahedral column located between two end cheeks, loading and unloading devices and a drive (a.c. N 1360814, C. B 07 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 screening mass in a multi-helical cylindrical helical drum in the form of a helical tetrahedral column with helical surfaces directed at the same pitch and with the same number of strokes, as well as insufficient mixing intensity in a drum assembled from elements of the same size, size and configuration in the form of equilateral triangles in.

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

The technical solution is achieved by the fact that in the drum screen the screening surface is conical in shape from successively installed sections, each of which is made in the form of mounted two pairs of triangles connected by the sides, the first pair made of the same two isosceles triangles, and the second pair made of an isosceles triangle, equal to an isosceles triangle of the first pair, and an equilateral triangle, whose sides are equal to the side of the isosceles th triangle, and each subsequent section is rotated relative to the next 90 ^o .

 According to the patent literature, a technical solution is not found that is similar to the claimed one, which allows one to judge the inventive step of the proposed drum screen.

 The novelty of the proposal lies in the fact that due to the conical shape of the screening surface of the drum and the increase in the bore of the drum along the length of the drum from loading to unloading, the stationary movement of the screened material is violated, resulting in increased productivity and screening efficiency.

 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, shape and size not only in one section, but each section relative to the previous one is different in size, so the intensity and efficiency of screening increases as the load moves material from loading to unloading.

 In addition, the novelty is due to the fact that the pitch of the helix is variable, i.e. increases along the length of the screening surface.

 The invention is illustrated in the drawing, where: in Fig.1 shows a drum screen, General view; figure 2 - section aa in fig. 1; in FIG. 3 - drum frame; FIG. 4 is a diagram of an assembly of a drum frame; in FIG. 5 - sifting surface of the drum, General view; in FIG. 6 is a view B in FIG. 5; in FIG. 7 is a diagram of an assembly of sections of a drum frame.

 The drum screen consists of two end cheeks 1, between which a frame 2 of the drum frame is mounted. The screen is equipped with loading 3 and unloading 4 and 5 devices. On one of the cheeks there is a crown gear 6. The screen drum is mounted on the support rollers 7. The screen is equipped with a drive including an engine 8, a gearbox 9 and a gear 10, which is engaged with gear 6.

 The screening surfaces are connected from sieves 11 in the form of separate equilateral and isosceles triangles, are fixed on the conical frame of the frame 2 of the drum along its perimeter.

The frame frame 2 of the conical drum (figure 3) is made of sections: A ₁ ; A ₂ ; A ₃ ; A ₄ ; A ₅ , etc.

In Fig. 3, the sides of sections A ₁ , A ₂ , A ₃ , etc., along which they are connected to each other, are shown by a triple line.

And all three free sides of the sections (figure 3) for clarity, are indicated by the letters A with the addition of the corresponding indexes of the section A ₁ ; A ₂ ; A ₃ , etc.

Each subsequent section (Fig. 4) when assembling the frame frame of the drum 2 is rotated relative to the previous 90 ^o .

For example, in Fig. 4, section A ₃ rotates when assembling the drum clockwise relative to section A ₂ by 90 ^o , and section A ₄ relative to section A ₃ rotates respectively also 90 ^o clockwise.

The screening surface of the sieves 11 mounted on the frame of the frame 2 of the drum (Fig. 5, Fig. 6) is cone-shaped with screw broken lines on the side surface of the step variable along the length of the drum with three broken lines of the main direction with step S ₁ , which are shown in FIG. 6 thickened line 12-13-14-15-16; 17-18-19-20; 21-22-23-24-25; one broken helix in the same direction with a step S ₂ - 17-13-18-18-14-23-19-15-24-20 and one broken helix in the opposite direction with a step S ₃ -20-15-23-23-18-13 -21.

Section A ₂ , as well as all other sections A ₁ , A ₃ , A ₄ , etc. (Fig. 7) are mounted from separate triangles connected by the sides, while the first pair is made of the same two isosceles triangles 25 and 26, and the second pair is made of the isosceles triangle 27, equal to the isosceles triangles 25, 26, and an equilateral triangle 28, the sides which are equal to the side of an isosceles triangle.

In Fig. 7, the letters "C" denote the edges of the sections along which sections A ₁ , A ₂ , A ₃ , A ₄ , A ₅ , etc. are connected by a known method. in a frame 2 conical drums.

When the sections are rotated relative to each other clockwise, a surface with right helical lines of the main direction of step S _{1 is formed} (Fig. 5, Fig.6).

When the sections are rotated relative to each other counterclockwise, surfaces with left helical lines of the main direction of step S _{1 are formed} (Fig. 5, Fig.6).

Drum screen works as follows. When the drum 2 rotates, the masses of bulk materials move from loading to unloading. This happens not only due to the presence of three helical lines of the main direction with step S ₁ and one helical line with step S ₂ , but also due to the slope of the screening surface of the conical shape of the drum 2.

 The rotation of the drum 2 is made by the engine through the gearbox 9 and gears 10 and 6.

When the drum 2 rotates, the classified material not only moves from loading to unloading due to the presence of helical lines with increments S ₁ and S ₂ , but also makes a complex spatial movement due to the presence on the surface of the drum 2 of one broken helical line in the opposite direction with increments of S ₃ , moreover, this mixing process is compounded by the fact that the step S ₁ and step S _{2 of} these helical lines of the main direction are significantly different from each other.

Since the step S ₁ , S ₂ , S _{3 of} broken helical lines along the length of the drum is variable, i.e., increases from loading to unloading, the disturbance in the ordering of the process of movement of materials is aggravated, which also contributes to an increase in size along the length of the drum sieve 11 and the passage section drum 2, i.e. intensive mixing takes place, which increases productivity and screening efficiency.

Claims (1)

A drum screen, including a screening surface located between the end cheeks, loading, unloading devices and a drive, characterized in that the screening surface is made of conical shape from successively installed sections, each of which is made in the form of mounted two pairs of triangles connected by the sides, while the first pair is made of the same two isosceles triangles, and the second pair is made of an isosceles triangle, equal to an isosceles triangle n rvoy pair, and an equilateral triangle whose sides are equal side of the isosceles triangle, and each subsequent section is rotated relative to the previous 90 ^o.

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