RU2734303C1 - Plant for separation of loose media - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: disclosed invention relates to equipment for classification of granular media and can be used in mining, food, construction, metallurgy and other industries. Plant for separation of loose media comprises screening surface with screw channels on inner surface, loading and unloading assemblies and drive. Screening surface is made helical in form of screw inclined truncated cone with wavy side perforated surface along its perimeter and with flat perforated bases in the form of perforated end cheeks of elliptic shape, mounted at an acute angle to each other and at different acute angles to the axis of rotation of the screw sieving surface. Screw sieving surface is installed at acute angle to axis of rotation and is equipped with loading and unloading trunnions of conical shape with inclination towards unloading and conic springs rigidly fixed by their inner diameters with coils of round section and inclination towards unloading side. Large axes of perforated end cheeks of screw sieving surface are turned along axis of its rotation relative to each other at acute angle. Wavy side perforated surface along its perimeter is bent to form helical perforated surfaces with helical channels of convex shape on inner surface of sieving surface. Screw perforated sieving surface is mounted in the housing, which is equipped with unloading device for loose fractions of loose media and together with loading device is fixed on frame, elastically mounted on the frame. Housing is equipped with mechanism for irrigation of rotating perforated surface with particles of granular materials.

EFFECT: raised efficiency of loose media separation and quality of finished products.

1 cl, 5 dwg

Description

The invention relates to a technique for the classification of bulk media and can be used in mining, food, construction, metallurgical and other industries.

Known drum screen (see and.with. USSR N 278396, CL B07B 1/00, 1970), including a sieving surface located between the end cheeks, loading and unloading devices and a drive.

The disadvantages of the known device are limited technological capabilities, insufficient efficiency of separation of bulk media and the quality of finished products.

Closest to the proposed invention is a drum screen (AS USSR N 1360814, publ. In BI 47, 1987, containing a sieving surface made in the form of separate equilateral triangles installed around the drum perimeter in the form of a tetrahedral column with screw channels along the inner surface, loading and unloading units, drive

The disadvantages of the known device are limited technological capabilities, insufficient efficiency of separation of bulk media and the quality of the finished product.

The objective of the invention is to expand technological capabilities, improve the efficiency of separation of bulk media and the quality of finished products.

The technical result is achieved by the fact that in an installation for the separation of bulk media containing a sieving surface with screw channels on the inner surface, loading and unloading units, the drive, the sieving surface is made helical in the form of a helical inclined truncated cone with a wavy lateral perforated surface along its perimeter and with flat perforated bases in the form of perforated end cheeks of an elliptical shape, mounted at an acute angle to one another and at different acute angles to the axis of rotation of the helical screening surface, while the helical screening surface is installed at an acute angle to the axis of rotation and is equipped with loading and unloading trunnions of a conical shape with a slope towards the unloading side and conical springs rigidly fixed along their inner diameters with round loops and a slope towards the unloading side, with the large axes of the perforated end cheeks of the helical screening surface turned along the axis of its rotation shifts relative to each other at an acute angle, while the wavy lateral perforated surface along its perimeter bends, with the formation of helical perforated surfaces with screw channels of a convex shape on the inner surface of the screening surface, and the helical perforated screening surface is mounted in the housing, which is equipped with a discharge device for small fractions of bulk media and together with a loading device are fixed on a frame resiliently mounted on a frame, and the body is equipped with a mechanism for irrigation of a rotating perforated surface with particles of bulk materials.

According to the data of the patent-technical literature, no technical solution similar to the claimed one was found, which allows one to judge the inventive level of the proposed installation for the separation of bulk media.

The novelty lies in the fact that the sieving surface is made helical in the form of a helical inclined truncated cone with a wavy lateral perforated surface along its perimeter and with flat perforated bases in the form of perforated end cheeks of an elliptical shape, mounted at an acute angle to one another and at different acute angles to the axis of rotation of the helical sieving surface, which expands the technological capabilities and increases the separation efficiency of bulk media and the quality of the finished product, including by imparting an additional transverse motion to the particles of bulk media inside the helical perforated sifting surface by the wavy lateral surface of the pyramid (helical screening surface).

The novelty also lies in the fact that along the perimeter of the helical sieving surface, helical perforated surfaces with convex screw channels on the inner surface of the sieving surface are formed, which not only facilitate the transport movement of particles of bulk media from loading to unloading, but also complicate the movement of particles of bulk media, which expands the technological capabilities, increases the efficiency of separation of bulk materials and the quality of finished products.

The novelty of the invention lies in the fact that the undulating surfaces along the perimeter of the helical sieving surface give additional movement to the particles of bulk materials inside the helical perforated sieving surface not only with a large amplitude and low frequency, but also by superimposing oscillations with low amplitude and high frequency on these movements created due to the unbalance of the helical perforated screening surface, as well as by wavelike surfaces, which expands the technological capabilities, increases the efficiency of separation of bulk media and the quality of the finished product.

The novelty lies in the fact that the centers of symmetry of the inner surface of the helical perforated screening surface, in each of its cross-sectional elements, are displaced relative to the axis of rotation, this disrupts the speed and direction of movement of particles of granular media, which expands technological capabilities, increases the efficiency of separation of bulk media and the quality of the finished product. products.

The novelty also lies in the fact that due to the unbalance of the masses of particles of granular media and the mass of the helical perforated sieving surface itself, which generates and imparts high-frequency oscillations with a small amplitude to the particles of granular media, which are superimposed on low-frequency oscillations of particles of bulk media moving inside the helical perforated sieving surface with high amplitude and low frequency. Such a combined effect of vibrations of different frequency and amplitude expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

The novelty lies in the fact that the combined effect of the rotational motion of the helical perforated sieving surface and particles of granular media moving inside it with low-frequency vibrations and with a large amplitude, and the combination with these movements of the platform vibrations with the screw perforated sieving surface fixed on it, as well as high-frequency vibrations with small amplitude, created due to the unbalance of the helical perforated screening surface, gives the particles of bulk materials a complex spatial movement, which expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products

The novelty also lies in the fact that inside the trunnion along the entire length from the loading side and the trunnion from the unloading side, a working body is fixed in the form of a spring with a circular section of coils, which violates the speed and direction of movement of particles of bulk materials when they meet the coils of these springs, which expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

The novelty of the proposal lies in the fact that due to the design features and installation of a screw perforated screening surface in the housing, which is equipped with a discharge device for fine fractions of bulk media and, together with the loading device, are fixed on a frame resiliently mounted on a frame, technological capabilities are expanded, and the efficiency of separation of bulk environments and the quality of finished products.

The novelty of the proposal lies in the fact that due to the design features of the housing equipped with a mechanism for irrigation of a rotating perforated screening surface with particles of bulk media, the quality of the finished product increases.

The essence of the invention is illustrated by drawings, where FIG. 1 shows an installation for the separation of bulk media; in fig. 2 - section a-a in Fig. 1; in fig. 3 - screw perforated sieving surface, general view; in fig. 4 - section b-b in Fig. 3; in fig. 5 - helical perforated sieving surface, visual representation.

The installation for the separation of bulk media contains (Fig. 1, Fig. 2) a housing 1 and a hollow perforated sieving surface 2 mounted in it, mounted with the possibility of rotation (the drive is not shown in the drawing), equipped with a loading device for raw materials (loading funnel) 3, a unit water supply, including a manifold with a branch pipe 4. The body 1 is equipped with an unloading device for a fine fraction of bulk materials 5 and, together with a perforated screening surface 2, is fixed on a frame 6, resiliently mounted on a frame 7 using four elastic elements 8. An installation for separating bulk media contains ( Fig. 1, Fig. 2) also an unloading chute 9 for receiving large fractions of bulk media and an unloading chute 10 for receiving fine fractions of bulk media, as well as a tray 11 for collecting dirt, sand and water. The unloading device 5 includes a perforated bottom 12 of the body 1. The body 1 itself consists of the body 1 itself and the cover 13, fastened to each other. On the side of unloading bulk media in the housing 1, above the perforated bottom 13, a rectangular opening 14 is made for withdrawing fine fractions of bulk media outside the housing 1 of the installation for separating bulk media. The helical perforated screening surface 2 is mounted for rotation on supports 15 and 16, which are fixed on the frame 6. FIG. 1 shows the location of the end perforated wall 17 of the screw sieving surface 2 at the support 16 and the end perforated wall 18 at the support 15, which are rotated relative to each other at an angle ω (Fig. 5), while the wavy side surface along the perimeter of the screw perforated surface 2 is bent with the formation of helical surfaces. The helical perforated surface 2 is equipped with a loading conical trunnion 19 and a conical unloading trunnion 20. Inside the conical journal 19, a conical spring 21 with a circular section of turns is rigidly fixed. And inside the conical unloading trunnion 20, a conical spring 22 with a circular section of turns is fixed.

The helical perforated screening surface 2 (Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5) is made in the form of a helical inclined truncated cone with a wavy perforated lateral surface along its perimeter and with flat perforated bases 17 and 18 in the form of end cheeks of elliptical shape, mounted at an acute angle β to one another (Fig. 3) and at different acute angles ψ and ϕ to the axis of rotation of the helical perforated sieving surface 2, while the helical perforated sieving surface 2 is installed at an acute angle α to the axis its rotation and is equipped with loading and unloading pins 19 and 20 of a conical shape with a slope towards the unloading side and conical springs 21 and 22 fixed along their inner diameters, with round loops and a slope toward the unloading side, with the large axes i ₁ -i ₁ and i ₂ -i ₂ (Fig. 5) of the end perforated cheeks 17 and 18 of the helical perforated surface 2, rotated along the axis of its rotation relative to each other on a sharp angle ω, while the wavy lateral perforated surface along its perimeter bends to form helical surfaces with wavy helical channels 23.

Installation for the separation of bulk media works as follows.

Particles of granular media enter through the loading funnel 3 and the loading sleeve 19 into a rotating helical perforated surface 2, where they move along different elliptical paths, the dimensions of which vary along the length of the helical perforated surface 2 in each cross section (Fig. 1, Fig. 2 , Fig. 3, Fig. 4, Fig. 5), while the centers of symmetry of the inner surface of the helical perforated surface 2, in each of its cross-sectional elements are displaced relative to the axis of rotation, which violates not only the speed and direction of movement of particles of granular media, but also contributes to the creation of eccentricity and low-frequency oscillations with a large amplitude are communicated to particles of bulk media. This is facilitated by wave-shaped screw channels 23 along the inner perimeter of the helical perforated sieving surface 2, which capture portions of particles of bulk materials during the rotation of the helical perforated surface 2, rise above the angle of repose and are thrown onto the opposite walls of the perforated helical sieving surface 2 towards the rotating screw channels 23 along perimeter of the helical perforated screening surface 2, thus increasing the frequency and energy intensity of the interaction of particles of bulk materials, which expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

At the same time, due to the unbalance of the helical perforated surface 2 and the particles of bulk materials placed inside it, the frame 6, which is elastically installed on the frame 7, high-frequency vibrations with a small amplitude are created.

Therefore, the combined effect on the particles of bulk materials of high-frequency vibrations with a small amplitude and low-frequency vibrations with a large amplitude, as well as a violation of the speed and direction of movement of particles of bulk materials when they come into contact with the coils of two springs 21 and 22 expands technological capabilities, increases the efficiency of separation of bulk media and the quality finished products.

As a result, the flow of moving particles of granular media is not stationary, and the size and location of active movement of the flows of particles of granular media change noticeably during one revolution of the screw perforated surface 2. Therefore, as a result of the disturbance of the ordering process of the movement of particles of granular media, their movement becomes more active, eliminated the zone of inactivity, the energy intensity of particle collisions between themselves and with the walls of the helical perforated sieving surface 2, as well as with the end perforated walls 17 and 18, increases, which ensures the cleaning of their perforated surfaces and expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

The process of non-stationary movement of particles of granular media is aggravated by the location of the end perforated walls 17 and 18, which significantly changes the direction of movement of particles of granular media along the axis of rotation of the helical perforated screening surface 2 and creates zones of different pressures of the end perforated walls 17 and 18 on particles of granular media and expands the technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

Therefore, the particles of granular media are able, under the influence of the pressure difference between the end perforated walls of the elliptical shape 17 and 18, located at an angle α to the axis of rotation of the helical perforated sieving surface 2, not only move along complex trajectories, but also move in the axial direction, thus creating turbulent streams. As a result of the intensification of the flow of particles of granular media, the efficiency of separation of bulk media and the quality of the finished product increase, and dirt and sand, together with water, are removed from the perforated surface of the screw sieving surface 2, flow down the walls of the housing 1 and enter the unloading device with a perforated bottom 12 of the housing 1. Water, mud and sand through the holes of the perforated bottom 12 are discharged into the pan 11 to collect them, and small fractions of granular media, through the opening 14 and the unloading device 12, are discharged outside the housing 1 into the unloading chute 10. Large fractions of granular media, through the discharge trunnion 20 and the springs 22 are led out of the housing 1 and the helical perforated screening surface 2 into the discharge chute 9.

The process of movement of particles of granular media, which rise up and fall down, is continuous. Since the inner perforated walls of the helical perforated screening surface 2 are located at an angle to its axis of rotation, then in each portion of particles of bulk media, each particle moves along its direction vector towards the unloading side, which greatly intensifies the process of separation and washing of bulk media, expands technological capabilities. At the same time, the structural design of the helical perforated sieving surface 2, together with the loaded particles of granular media, creates an unbalance in the rotating helical perforated sieving surface 2, which gives it and the housing 1 low-frequency vibrations, which not only intensify the separation and washing process, but also ensure reliability moving small fractions of granular media along the bottom 12 of the housing 1 and their output outside the device. Thus, the particles of granular media perform a complex spatial movement in the vertical plane - along elliptical trajectories, since the helical perforated sieving surface 2 is made with a wavy surface around the perimeter and flat perforated end walls of elliptical shapes 17 and 18 located at an angle β to each other, placed obliquely at an acute angle α to the horizontal axis of rotation of the helical perforated sieving surface 2, while the large axes of the ellipses of the end walls 17 and 18 of the elliptical shape along the perimeter are rotated relative to each other at an acute angle ω, and in the horizontal plane - reciprocating with overlapping on these movement of low-frequency vibrations, excited by the asymmetric position of the screw perforated sieving surface 2 and the simultaneous action of vibrations on them in three mutually perpendicular directions, as well as by screw channels 23 along the perimeter of the perforated sieving surface sti. As a result, the flow of moving particles of granular media is not stationary, and the size and location of their active mixing noticeably change during one revolution of the helical perforated sieving surface 2. As a result of the disturbance of the ordering process of the movement of particles of granular media, their movement becomes more active, zones of inactivity are eliminated, and energy intensity of collisions of flows of particles of granular media with each other and with the walls of the helical perforated sieving surface 2, as well as end perforated walls 17 and 18, which provides an expansion of technological capabilities. The process of non-stationarity of the movement of particles of granular media is aggravated by the location of the end walls 17 and 18, the major axes of which are rotated relative to each other by an acute angle ω, which significantly changes the direction of movement of particles of granular media along the axis of rotation of the helical perforated sieving surface 2 and creates zones of different pressure of the end walls 17 and 18 for particles of free-flowing media. Therefore, the particles of granular media are able, under the influence of the geometric slope of the helical perforated sieving surface 2 and the pressure difference of the end walls of the elliptical shape 17 and 18 to each other and to the axis of rotation, not only move along complex trajectories, but also move in the axial direction. The complication of the trajectories of movement of particles of granular media, as well as their movement from loading to unloading, is facilitated by the coils of conical springs 21 and 22.and also wavy screw channels 23 along the inner perimeter of the perforated helical screening surface 2, which capture portions of particles during their rotation, rise above the angle natural slope and thrown on the opposite walls of the screw perforated sieving surface 2, towards the rotating screw channels 23, thus increasing the frequency and energy intensity of the interaction of particles of granular media, which expands technological capabilities, increases the efficiency of separation of bulk media and the quality of finished products.

The speed of movement of particles of bulk media from loading to unloading can be controlled by changing the angle of inclination of the entire device for separating bulk media.

The advantages are provided due to the fact that the perforated helical screening surface along the inner perimeter is equipped with wave-shaped helical channels, which ensures the transport movement of raw material particles from loading to unloading, while the flat end walls of an elliptical shape are mounted at an angle to each other, placed obliquely at an acute angle to the horizontal axis of rotation of the helical perforated sieving surface 2, rotated relative to each other at an acute angle and equipped along the perimeter with generators in the form of alternating protrusions and depressions of a wavy shape, which makes it possible to increase productivity, expand technological capabilities due to the simultaneous effect of high-frequency vibrations on particles of granular media with low amplitude and low-frequency oscillations with a large amplitude, as well as violations of the speed and direction of movement of particles of bulk materials when they meet with helical wavy channels.

Claims (1)

Installation for the separation of bulk media, containing a sieving surface with screw channels on the inner surface, loading and unloading units, a drive, characterized in that the sieving surface is made of a screw in the form of a helical inclined truncated cone with a wavy lateral perforated surface along its perimeter and with flat perforated bases in the form of perforated end cheeks of an elliptical shape, mounted at an acute angle to one another and at different acute angles to the axis of rotation of the helical screening surface, while the helical screening surface is installed at an acute angle to the axis of rotation and is equipped with loading and unloading conical trunnions with a slope in the unloading side and conical springs rigidly fixed along their inner diameters with round loops and a slope towards the unloading side, and the large axes of the perforated end cheeks of the helical screening surface are rotated along the axis of its rotation relative to each other another to an acute angle, while the wavy lateral perforated surface along its perimeter is bent to form helical perforated surfaces with helical channels of a convex shape on the inner surface of the screening surface, and the helical perforated screening surface is mounted in a housing, which is equipped with a discharge device for fine fractions of bulk media and together with the loading device, it is fixed on a frame resiliently mounted on the frame, and the body is equipped with a mechanism for irrigation of a rotating perforated surface with particles of bulk materials.

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