RU2559282C1 - Continuous action drum screen - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: continuous action drum screen contains a screening surface located between end face jaws, a drive, loading and unloading pins. The screening surface is implemented in the form of a punched cylinder installed at an angle with reference to the horizontal axis of rotation with flat punched end face elliptic walls. They are arranged at various angles to the axis of rotation and to each other. Axes of larger diameters of ellipses of the punched end face walls are parallel or can be rotated around the axis of rotation of the screening surface with reference to each other. Along the total length of the screening surface on its axis of rotation the conic spring with flat cross section of turns is mounted. This spring is fitted with the device for changing of coil pitch by its extension or contraction. The conic spring is mounted in such a way that its small diameter is located in the loading pin, and its larger diameter is mounted at the unloading pin. Thus the possibility of removal of finer fractions outside the punched screening surface, and coarse fractions - from the drum screen by means of the unloading device in the form of unloading pin is provided.

EFFECT: expansion of technological capabilities of the device.

3 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.

A disadvantage of the known drum screen is the 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.

A disadvantage of the known screen is 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 by the fact that in a continuous drum screen containing a screening surface located between the end cheeks, a drive, loading and unloading pins, the screening surface is made in the form of a perforated cylinder with elliptical flat perforated end walls mounted obliquely at an angle α relative to the horizontal axis of rotation shapes placed at different angles β and ψ to the axis of rotation, and to each other at an angle φ, while the axes of large diameters are ellipso in the perforated end walls parallel to or can be rotated along the axis of rotation of the screening surface relative to each other by an angle ω, and a conical spring with a flat section of coils is mounted along the entire length of the screening surface along its axis of rotation, which is equipped with a device for changing the pitch of the coils by stretching it or compression and mounted in such a way that the small diameter of the conical spring is placed inside the loading axle, and the large diameter of the conical spring is mounted at the unloading axle, with that the fines are derived beyond perforated sieve surface and the coarse fraction derived from screening through the discharge device in the form of the discharge trunnion.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge about the inventive step of the proposed design of the rumble of a continuous drum.

The novelty lies in the fact that, as a result of the screening surface being installed, it is installed obliquely relative to the horizontal axis of rotation of the perforated cylinder with flat end perforated walls placed at different angles not only to the horizontal axis of rotation, but also to each other, manufacturing is simplified, and the stationary motion material flows that perform complex spatial motion in the vertical plane along elliptical trajectories, as they sift along the perimeter The surface is made in the form of an inclined perforated cylinder, and in the horizontal plane it is reciprocating, which increases productivity and expands technological capabilities.

The novelty of the proposal also lies in the fact that a conical spring with a rectangular coil section is mounted along the entire length of the screening surface, which provides not only the movement of material particles in the radial direction, but also helps to intensify the screening process, which circulate inside the screener in planes perpendicular to it the axis of symmetry, meeting with the coils of the conical spring, change the trajectory of their movement and move not only to the periphery s surface, but also in the direction of the discharge device to display the material, increase the intensity of separating particulate materials from each other, enhance technological capabilities.

The novelty also lies in the fact that a conical spring with a rectangular section of coils mounted along the entire length of the screening surface is equipped with a device for changing the pitch of the coils by stretching or compressing it, which allows you to influence the nature of the movement of particles of materials and change the speed of their movement from loading to unloading, expands technological opportunity.

The novelty lies in the fact that the centers of symmetry of the inner surface of the screening surface in each of its cross-sectional elements along its length are shifted relative to the axis of rotation of the screening surface, which violates the stationary motion of particles of materials, expands technological capabilities.

The novelty of the invention lies in the fact that the screening surface along the entire length has a variable not only transverse, but also longitudinal section, which intensifies the screening process and ensures self-cleaning of screens.

The novelty of the invention lies in the fact that such a design of the screening surface and its execution in the form of a cylinder installed obliquely relative to the horizontal axis with perforated walls around the perimeter and with perforated end walls of elliptical shape, the end wall of the loading axle mounted at an angle to the axis of rotation of the screening surface and made of a flat elliptical shape, and the end wall of the discharge trunnion is placed at an angle not only to the axis of rotation , but also to the end wall of the loading pin and is also made elliptical in shape, which violates the stationary motion of the screened materials, increases productivity and screening efficiency, and expands technological capabilities.

The novelty lies in the fact that as a result of the screening surface being installed in the form of a cylinder inclined with respect to the horizontal axis with perforated walls around the perimeter and with perforated end walls of elliptical shape, the screened materials make a complex spatial movement in the vertical plane - along elliptical trajectories, since the screening surface is made in the form of an inclined cylinder, and in the horizontal plane - reciprocating, which increases productivity and screening efficiency, extends the technological capabilities.

The novelty also lies in the fact that the direction of the coils of a conical spring with a rectangular cross-section of the coils coincides with the direction of rotation of the screening surface, which ensures the transportation of particles of the screened material from loading to unloading, expanding technological capabilities.

The invention is illustrated by drawings, where in FIG. 1 shows a drum screen of continuous operation with end perforated walls placed at different angles not only to the horizontal axis of rotation, but also to each other, general view; in FIG. 2 is a section AA in FIG. 1 screen of continuous drum with end perforated walls, the position of the axes of large diameters of the ellipses of which are identical, i.e. their axes are parallel to each other (a spring in a section is not shown); in FIG. 3 is a section BB in FIG. 1 rumble drum continuous with end perforated walls, the axes of large diameters of the ellipses of which are rotated by an angle ω along the axis of rotation relative to each other.

The drum screen of continuous operation (Fig. 1, Fig. 2) contains a screening surface 1, loading 2 and unloading 3 axles. To provide additional longitudinal movement of particles of the screening material inside the screening surface 1, a conical spring 4 with a flat section of coils is mounted, with the direction of the coils coinciding with the direction of rotation of the screening surface 1. The spring 4 is equipped with a device for changing the pitch of the coils of the spring 4 by stretching or compression (in the drawings not shown). The adjustment of the pitch of the turns of the spring 4 can be made in the process of screening materials.

The sieving surface 1 can be made in the form of a perforated cylinder mounted obliquely at an angle α relative to the horizontal axis with perforated end walls 5 and 6 (Fig. 1, Fig. 2) placed at angles β and ψ to the horizontal axis of rotation of the perforated cylinder and at an angle φ to each other (Fig. 1), equipped with a drive (not shown). The position of the axes of large diameters of the ellipses of the end perforated walls 5 and 6 i ₁ -i ₁ and i ₂ -i ₂ can be identical, i.e. parallel to each other (Fig. 2). To provide additional longitudinal movement of particles of the material flows inside the screening surface 1, a conical spring 4 with a flat section of coils is mounted, with the direction of the coils coinciding with the direction of rotation of the screening surface 1. Spring 4 is equipped with a device for changing the pitch of the coils of spring 4 by stretching or compression (not shown ) The adjustment of the pitch of the turns of the spring 4 can be carried out in the process of screening. In this case, the small diameter of the conical spring 4 is placed inside the loading pin 2, and the large diameter of the conical spring 4 is mounted at the unloading pin 3.

The screening surface 1 with perforated end walls 5 and 6 (Fig. 1, Fig. 3) can be made in the form of a perforated cylinder mounted obliquely at an angle α relative to the horizontal axis with perforated end walls 5 and 6, placed at different angles β and ψ only to the horizontal axis of rotation, but also to each other at an angle φ (Fig. 3), while a conical spring 4 with a flat section of coils is mounted along the entire length of the screening surface 1, which is equipped with a device for changing the pitch of the coils by ie tensile or compressive (fig. 1). Moreover, the small diameter of the conical spring 4 is placed inside the loading pin 2, and the large diameter of the conical spring 4 is mounted at the unloading pin 3. The conical spring 4 is equipped with a device for changing the pitch of the turns of the spring 4 by stretching or compression (not shown). The adjustment of the pitch of the turns of the spring 4 can be carried out in the process of screening. The axis of the large diameters of the ellipses of the end perforated walls of the screening surface 1 (Fig. 3) is rotated along the axis of rotation of the filter 0 ₁ -0 ₁ relative to each other by an angle ω. In FIG. 3 shows the location of the axis of the larger diameter of the ellipse i ₁ -i _{1 of the} end perforated wall 5 of the sifting surface 1 at the loading axle 2 relative to the axis of the larger diameter of the ellipse i ₂ -i _{1 of the} end diameter of the ellipse i ₂ -i _{1 of the} end of the perforated wall 6 of the sifting surface 1 at the unloading axle 3, which are rotated relative to each other by the angle ω.

The drum drum continuous operation is as follows.

The streams of materials to be screened (Fig. 1) are fed through a loading means (not shown) through a loading pin 2 into the screening surface 1, where they move along different elliptical paths, the dimensions of which vary along the length of the screening surface 1 in each cross section , while the particles of the material perform complex spatial motion in the vertical plane along elliptical trajectories, since the screening surface 1 is made cylindrical and inclined, and in the horizontal plane bones - reciprocating. As a result, the flow of moving particles of materials is unsteady, and the size and location of the active movement of their flows noticeably change during one revolution of the screening surface 1. Therefore, as a result of a disorder in the process of movement of particles of material flows, their movement becomes more active, the zone of immobility is eliminated, and the energy intensity of particle collisions increases material between themselves and with the walls of the screening surface, as well as with the end walls 5 and 6, which ensures the cleaning of their perforated surfaces and increases screening efficiency. The process of non-stationary motion of material particles is aggravated by the shape of the end walls 5 and 6 - elliptical shape, which significantly changes the direction of movement of the material particles along the axis of rotation of the screening surface 1 and creates zones of different pressure of the end walls 5 and 6 on the material particles and the screening process is intensified. Therefore, material particles are able, under the influence of the pressure difference of the end walls of the elliptical shape 5 and 6, not only to move along complex paths, but also to move in the axial direction from loading to unloading, creating turbulent flows of material particles. As a result of such an intensification of the movement of material flows, a small fraction of the material is discharged outside the perforated surface 1, and a large fraction with the help of the unloading device 3 is also discharged outside the continuous drum screen.

The process of movement of particles of material that rise up and fall down is continuous. Since the inner perforated walls of the perforated surface 1 are located at an angle not only to each other, but also to the axis of rotation of the screening surface 1, in each portion each particle of material moves along its direction vector towards the discharge side, which greatly intensifies the screening process and expands technological capabilities. The screening process is also intensified by a conical spring 4 mounted inside the screening surface 1 with a flat section of turns and with a direction of turns matching the direction of rotation of the screening surface 1, which provides additional longitudinal movement of material particles inside the screening surface 1. The spring 4 is equipped with a device for changing the pitch of the turns by stretching or compression (not shown). The adjustment of the pitch of the turns of the spring 4 can also be carried out during the screening process, i.e. during the operation of a continuous drum screen. Depending on the characteristics of the materials, the required screening time, a spring pitch is set that meets the optimal conditions for the screening process. For example, if a high speed of longitudinal movement of the material flows is required, then the step of the spring 4 increases and, thus, the flow of particles of the materials changes, which means that their movement speed from loading to unloading changes accordingly. With the screening of the material, requiring a long residence time of the material flows in the screening surface 1, the step of the turns of the spring 4 decreases and, thus, the speed of movement of the sweats of the material changes, which means that their speed of movement from loading to unloading changes accordingly. The direction of the turns of the spring 4 may coincide or be against the direction of rotation of the screening surface 1. In the desired position, the spring 4 is fixed with known devices (not shown). The adjustment of the step size of the spring 4 can also be carried out during the screening process. At the exit of the screening surface 1, the particles of materials rise upward and through the unloading pin 3 are discharged into the unloading device (not shown).

The speed of movement of particles of materials from loading to unloading can be controlled by changing the angle of inclination of the entire screen of a drum continuous.

Technical and economic advantages are provided due to the intensification of the screening process of materials, due to the violation of the stationary flow of particles of materials within the screening surface. The proposed design of the drum continuous drum allows you to simplify the manufacture, increase productivity, expands technological capabilities.

Claims (1)

A continuous drum screen containing a screening surface located between the end cheeks, a drive, loading and unloading trunnions, characterized in that the screening surface is made in the form of a perforated cylinder with elliptical flat perforated end walls placed obliquely at an angle α relative to the horizontal axis of rotation at different angles β and ψ to the axis of rotation, and to each other at an angle φ, while the axes of large diameters of the ellipses of perforated torus of the walls are parallel or can be rotated along the axis of rotation of the screening surface relative to each other by an angle ω, and a conical spring with a flat section of coils is mounted along the entire length of the screening surface along its axis of rotation, which is equipped with a device for changing the pitch of the coils by stretching or compressing it and mounted in such a way that the small diameter of the conical spring is placed inside the loading axle, and the large diameter of the conical spring is mounted at the unloading axle, while it is possible the possibility of withdrawing small fractions beyond the perforated screening surface, and large fractions from the screen using an unloading device in the form of an unloading journal.

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