RU2352405C1 - Elliptic sifter - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: elliptic sifter comprises sieving surface installed between end flanges, drive, loading and unloading accessories. Sieving surface is arranged as conical, axis of which shapes acute angle with axis of its rotation. End flanges of conical sieving surface are arranged in the form of elliptically shaped sieves. Large diameters of ellipses of end flanges of these sieves are turned along axis of conical sieving surface relative to each other and are mounted at acute angle not only one to another but also to axis of sieving surface rotation.

EFFECT: increased sifting efficiency and expansion of technological resources.

2 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 (US patent No. 2804975, CL 209-287, publ. 1957), including a rotating sieve cylindrical drum and a mechanism for communicating oscillatory movements of the drum during rotation.

The disadvantages of the known drum screen are low technological capabilities, self-cleaning of the sieve openings is not effective enough and therefore this operation is carried out with a stream of water.

Closest to the proposed invention is a drum screen (AS USSR No. 613830, class B07B 1/22, 1976) containing a screening surface located between the end cheeks, a drive, loading and unloading devices.

The disadvantages of the known screen are the limited technological capabilities due to the low mixing intensity, since during the rotation of the drum there is a sliding of the screening mass on the inner surface of the drum, clogging of the sieve openings and the need for additional work to clean them.

The technical solution is to expand technological capabilities.

The technical solution is achieved in that the elliptical screen containing a screening surface located between the end cheeks, a drive, loading and unloading devices according to the invention is characterized in that the screening surface is conical, the axis of which is an acute angle with the axis of rotation, and the end cheeks the screening surface is made in the form of elliptical sieves, and the large diameters of the ellipses of the end cheeks of these screens are rotated along the axis of the conical screening surface relative to each other and mounted at an acute angle, not only one to the other, but also to the axis of rotation of the screening surface.

The novelty of the invention lies in the fact that such a design of the conical screening surface, the implementation of the end cheeks in the form of sieves and their location at an acute angle to one another violates the stationary motion of the screening mass, increases productivity and screening efficiency, which expands technological capabilities.

The novelty is that as a result of the execution of the end cheeks in the form of sieves of an elliptical shape, the screening mass moves along various elliptical trajectories, the dimensions of which vary along the length of the screening surface, which violates the stationary motion of the screening mass and provides not only self-cleaning of the screens, but also improves productivity and expands technological capabilities.

The novelty is also seen in the fact that the screening surface is conical, the axis of which is an acute angle with its axis of rotation, and therefore the position of the centers of symmetry of the screens in the form of ellipses is mobile during the rotation of the screening surface, which increases the miscibility and screening efficiency.

The novelty also lies in the fact that the large diameters of the ellipses of the end cheeks in the form of elliptical screens are rotated relative to each other by a certain angle, which violates the stationary motion of the flow of the crashing mass. Therefore, the size and location of active screening varies markedly during one revolution of the screening surface, which provides not only self-cleaning of the holes of the conical screening surface, but also expands the technological capabilities.

The novelty is also seen in the fact that the location of the end cheeks at an acute angle to the axis of rotation of the conical screening surface provides not only the pressure difference on the screened masses inside the screening surface, but also the movement of these masses from loading to unloading.

The invention is illustrated by drawings, where figure 1 shows an elliptical screen, General view; figure 2 is the same spatial image.

The elliptical screen (figure 1, figure 2) contains a conical screening surface 1, loading 2 and unloading 3 axles. The axis of the screening surface O ₁ -O ₁ is with the axis of its rotation O ₂ -O _{2 an} acute angle α. The screening surface 1 is made conical, and the end cheeks 4 and 5 are made in the form of elliptical screens. The drive is not shown in the drawings. The large diameters of the ellipses D ₁ and D _{2 of the} end cheeks in the form of sieves of an elliptical shape 4 and 5 of a conical screening surface 1 are rotated along the axis O ₁ -O ₁ relative to each other. End cheeks in the form of sieves 4 and 5 of the conical screening surface 1 are mounted at an acute angle of 10-90 °, not only one to the other, but also to the axis of rotation of the screening surface (Fig. 1).

An elliptical screen works as follows.

During the rotation of the conical screening surface 1 in the loading and unloading pins 2 and 3, the rumbling mass moves along various elliptical trajectories, the dimensions of which vary along the length of the conical screening surface. Since the large diameter D _{2 of the} cheek in the form of a sieve of an elliptical shape 4 of a conical screening surface 1 is rotated with respect to the large diameter D _{1 of the} cheek in the form of a sieve of an elliptical shape 5 of a conical screening surface 1 and since the axis of symmetry of the conical screening surface is at an angle to the axis of rotation, the position of the centers of symmetry of the ellipses during the rotation of the screening surface relative to its axis of rotation is movable. As a result, the flow of moving masses of the screened material is unsteady, and the size and location of active screening noticeably change during one revolution of the conical screening surface. As a result of a disorder in the process of movement of the screened masses, their movement becomes more active, the zone of inactivity is eliminated, the energy intensity of collisions of the particles of the screened mass with each other and with the walls of the conical screening surface and end cheeks increases, which ensures the cleaning of their screens and increases the efficiency of screening. The process of non-stationary motion of the crashing mass of material is aggravated by the location of the end cheeks 4 and 5 in the form of elliptical screens of a conical screening surface 1 at an acute angle of 10-90 ° to one another and to the axis of rotation of the screening surface 1, which significantly changes the direction of movement of the particles of the screening materials along the axis rotation of the screening surface 1 and creates zones of different pressure of the end cheeks on these masses of the screened material. Therefore, the masses of the screened material have the ability under the influence of the geometric slope of the conical screening surface 1 and the pressure difference of the end cheeks in the form of differently inclined screens of elliptical shape 4 and 5 to each other and to the axis of rotation of the conical screening screen 1 not only to move along complex paths, but also to move in axial direction from loading to unloading.

The invention allows not only to increase the efficiency of screening, but also expands the technological capabilities.

Claims (1)

An elliptical screen containing a screening surface located between the end cheeks, a drive, loading and unloading devices, characterized in that the screening surface is conical, the axis of which is an acute angle with its axis of rotation, and the end cheeks of the conical screening surface are made in the form of elliptical screens moreover, the large diameters of the ellipses of the end cheeks of these screens are rotated along the axis of the conical screening surface relative to each other and are not only mounted at an acute angle to one to the other, but also to the axis of rotation of the screening surface.

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