RU2564542C1 - Vibration screen - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: vibration screen contains the drive, loading and unloading devices, the screening surface, elastically installed on the bed, and fitted with the vibrator and designed as hollow in the form of square with wavy screw punched surface along the internal perimeter, with the wavy pockets of a form oriented towards the same side at the angle 10-70° to the screening surface axis. The screening surface is formed by four hollow punched sections which are rigidly joined to each other in alternately manner, and implemented in the form of the hollow circular punched sector with four hollow rectilinear punched sections. Four punched sections implemented in the form of the hollow circular punched sector with the wavy multiturn screw punched surface with double curvature, fitted with screw grooves inside and outside the circular sector at the angle 10-70° to its axis in the form of wavy pockets with the curvature centres located outside and inside the cross section of the circular punched sector, are formed by punched subsections, each of which is made of the punched strip curtailed into ring with formation of quadrangles, with different sizes, with two parallel sides located in parallel to each other. The punched subsections are joined to each other by free sides of the named quadrangles in the form of the hollow circular punched surface with formation along external and internal surfaces oriented towards the same side at the angle 10-70° to the longitudinal axis of the hollow circular punched sector of wavy screw punched surfaces in the form of wavy pockets along external and internal punched surfaces, the perimeters of which can differ not only by shape, but also by sizes. The distance between the bend lines is equal to the sum of perimeter lengths of the geometric figures of the pockets on the internal and external surfaces. Four hollow rectilinear punched sections along the perimeter are made of one and more punched strips bent in wavy manner along the fold lines arranged at an angle to their longitudinal edges with formation along external and internal punched surfaces oriented towards the same side at the angle 10-70° of screw punched surfaces in the form of pockets of the external punched surface and pockets of internal punched wavy surface. The shape and the sizes of pockets along the internal punched surface may differ from the shape and the sizes of pockets along the external punched surface and along the perimeter of rectilinear section the pockets may differ not only by shape, but also by sizes.

EFFECT: screening efficiency improvement.

14 dwg

Description

The invention relates to devices for screening rocks, building materials in preparation for transportation, to perform crushing and screening operations, as well as for the classification of building materials.

A known screen for classifying building materials (RF patent No. 2471573, class B07B, publ. 10.01. Bull. No. 1) containing a drive, loading and unloading devices, a drum made in the form of a multi-screw helical perforated surface with helical grooves inside and outside under an angle of 5-45 ° to the longitudinal axis of the drum in the form of pockets of curvilinear shape with double curvature with centers of curvature located inside and outside its cross section.

A disadvantage of the known drum screen is the large dimensions in length and limited technological capabilities.

Closest to the proposed invention is a screen for separating bulk materials (RF patent No. 2475313, class B07B 1/28, publ. 02.20.2013. Bull. No. 5), containing a screening surface, resiliently mounted on a bed, equipped with a vibrator and made in the shape of a torus with a wave-like multi-start screw perforated surface of double curvature.

A disadvantage of the known screen is the limited technological capabilities, the insufficient length of the path of movement of the screened materials and some streamlining of the movement of the screened materials.

The technical solution to the problem is to expand technological capabilities, increase the path length of the movement of the screened materials and disrupt the order of movement of the screened materials.

The technical solution is achieved by the fact that in a vibrating screen containing a screening surface, a drive, loading and unloading devices, the screening surface is resiliently mounted on a bed, equipped with a vibrator and made hollow in the form of a square with a wave-shaped screw perforated surface along the inner perimeter, with pockets of a wave-like shape, directed to one side at an angle of 10-70 ° to the axis of the screening surface, while the screening surface is mounted from rigidly connected alternately with each other four hollow perforated sections made in the form of a hollow circular perforated sector with four hollow rectilinear perforated sections, and four perforated sections made in the form of a hollow circular perforated sector with a wave-shaped multi-helical perforated surface with a double curvature inside and provided with screws sectors at an angle of 10-70 ° to its axis in the form of pockets of a wavy shape with centers of curvature, located outside and inside the cross section of a circular perforated sector, mounted from perforated subsections, each of which is made of a perforated strip, rolled into a ring to form different sized quadrangles with two parallel sides parallel to each other, while the perforated subsections are connected to each other the free sides of the said quadrangles in the form of a hollow screening surface, with the formation on the outer and inner surfaces, for example embedded in one direction at an angle of 10-70 ° to the longitudinal axis of the circular perforated sector, wave-shaped screw perforated surfaces in the form of wave-shaped pockets along the outer and inner perforated surfaces, which around the perimeter of the circular perforated sector can be different not only in shape but also in sizes, while the distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of the pockets of the inner and outer surfaces, and four hollow rectilinear perforated perimeter sections are made of one or more perforated strips bent in a wave-like fashion along fold lines placed at an angle to their longitudinal edges, with the formation of perforated helical surfaces in the form of external perforated pockets along the outer and inner perforated surfaces directed to one side at an angle of 10-70 ° surface and pockets of the inner perforated surface of a wavy shape, while the shape and dimensions of the pockets along the inner perforated surface may differ from the shape and size measures of pockets along the outer perforated surface and along the perimeter of the rectilinear section, pockets can be different not only in shape but also in size.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed vibration screen.

The novelty lies in the fact that the screening surface is made hollow in the form of a square with a curved helical surface along the inner perimeter in the form of pockets of a wave-like shape directed to one side at an angle of 10-70 ° to the axis of the screening surface, which expands technological capabilities, with the same the same dimensions with a perforated surface, made, for example, in the form of a torus, expanding technological capabilities and increasing the path (length) of the movement of the screened materials in a square screening surface ited, since the length of the perimeter of the torus (circle) diameter D is equal to L ₁ = πD, while the length of the perimeter of a square is equal to L ₂ = 4D. (L ₂ > L ₁ ).

The novelty lies in the fact that the screening surface is made hollow with a curved helical surface along the inner perimeter in the form of wave-shaped pockets directed to one side at an angle of 10-70 ° to the axis of the screening surface, in the form of a square, which violates the constancy and direction of movement of the screened materials which move, for example, alternately, first in a hollow rectilinear section, then in a section in the form of a hollow circular sector, then again in a hollow rectilinear section, then move and are moving back into the hollow section in the form of a circular sector, again in straight section, and then again in the circular sector and again in the straight section, and then again in the circular sector and again in the straight section, ie, unlike a screening surface in the form of a torus, in which there is some constancy and orderliness of the forms of movement of the screened materials around the circle, in the proposed invention, the screened material four times alternately changes the form of movement from movement in rectilinear sections of movement in a circular sector and four times movement in a circular sector on the form of movement in the rectilinear section, i.e. 8 times there is a change in direction and a violation of some ordering of the movement of the screened materials in the screening surface, made hollow in the form of a square.

The novelty is due to the fact that the screening surface is resiliently mounted on the bed, equipped with a vibrator and made hollow in the form of a square with a multiple screw perforated surface along the inner perimeter, which provides particles of the screened material with complex spatial motion, violates the stationary motion, reduces the size of the screen along the length, expands technological capabilities.

The novelty is due to the fact that the screening surface is made in the form of a square with a multi-screw perforated surface, provided with helical grooves inside and outside the screening surface at an angle to its axis in the form of wavy pockets directed to one side at an angle of 10-70 ° to the axis of the screening surface That provides not only the intensification of the interaction of the screening masses, but also the reduction of dimensions along the length of the screen and the expansion of technological capabilities.

The novelty of the proposal lies in the fact that pockets are formed on the inner screening surface, which can vary both in shape and size along the perimeter of the screening surface, which provides a change in the direction of movement of the screened masses, as a result, productivity increases and technological capabilities expand.

The novelty is also due to the fact that the screening surface is mounted from four sections rigidly alternately rigidly connected to each other, made in the form of a circular perforated sector with four rectilinear perforated sections, which expands the technological capabilities and since with the same dimensions with a perforated surface made in in the form of a torus, technological capabilities expand, the path (length) of the movement of the screening materials in the square screening surface increases and the order is violated yadochennost movement grohotimyh materials.

The novelty is seen in the fact that the pockets of the screening surface are made in the form of a wave, of at least one perforated strip, which expands the technological capabilities.

The novelty of the proposal lies in the fact that wavy-shaped surfaces are formed on the inner surface of the screening surface, which along the perimeter can be different not only in shape but also in size, which ensures a change in the direction of movement of the screened materials, as a result, productivity increases and technological capabilities expand.

The novelty is also due to the fact that the distances between the fold lines of the pockets of the inner perforated surfaces are equal to each other and equal to the sum of the lengths of the perimeters of the geometric shapes of the pockets of the inner perforated surfaces, which expands the technological capabilities.

The novelty is due to the fact that the screening surface is made hollow in the form of a square with a curved screw perforated surface along the inner perimeter in the form of pockets of a wavy shape, which can be different not only in shape and size, which provides not only the intensification of the interaction of the screened materials, increase productivity, but and expanding technological capabilities.

The novelty is due to the fact that the sections from which the screening surface is assembled are mounted around the perimeter from perforated strips with quadrangles of different sizes and sizes marked on them, so the intensity and productivity of screening materials increase, and technological capabilities expand.

The novelty of the proposal also lies in the fact that along the entire perimeter of the screening surface, the passage section varies not only in shape, but also in area, which provides alternate compression and expansion of screening materials in each cross section of the screening surface, which means increased productivity and expanded technological capabilities.

The novelty of the invention lies in the fact that the quadrangles of the perforated strips from which the sections are mounted are not only inclined to each other, but also to the symmetry axis of the screening surface, therefore, the compression ratio of the screened materials increases, the screening process is intensified.

The novelty also lies in the fact that the screening surface is made of perforated sections and subsections, the walls of which are not only inclined to each other, but also to the direction of rotational motion of the screened materials moving under the influence of vibration in planes perpendicular to the cross-section of the screening surface, which complicates the trajectory their movements and increases the intensity of screening and expands technological capabilities.

The novelty is due to the fact that the sections from which the screening perforated surface is assembled around the perimeter are mounted from perforated strips with quadrangles of different sizes and sizes marked on them, so the intensity and efficiency of screening increase, and technological capabilities expand.

The novelty of the proposal also lies in the fact that along the entire perimeter of the perforated screening surface, the passage section varies not only in shape, but also in area, which provides alternate compression and expansion of screening masses in each cross section of the screening surface, which means increased productivity, efficiency, and reduction in size and expanding technological capabilities.

The novelty of the invention lies in the fact that the quadrangles of the perforated strips from which the sections are mounted are not only inclined to each other, but also to the symmetry axis of the screening surface, therefore, the compression ratio of the screened masses increases, and the screening process is intensified.

The novelty also lies in the fact that the screening surface is made of sections, the walls of which are not only inclined to each other, but also to the direction of rotational motion of the screening masses moving under the influence of vibration in planes perpendicular to the passage section of the screening surface, which complicates the trajectory of their movement, increases screening intensity and expands technological capabilities.

The novelty also lies in the fact that when the vibrator is installed vertically, the rattled materials circulating inside the screening surface in planes perpendicular to its axis of symmetry receive additional movement from the tilted pockets of the walls of the wavy shape of all eight perforated sections, which expands technological capabilities and increases screening performance.

The invention is illustrated by drawings, where in FIG. 1 shows a vibrating screen, a general view; in FIG. 2 - a screening surface in the form of a square, top view; in FIG. 3 is a section AA in FIG. 2; in FIG. 4 - one of the four perforated sections, made in the form of a hollow circular perforated sector, top view; in FIG. 5 is a section BB in FIG. four; in FIG. 6 - perforated strip with marked straight bending lines and trimming lines of the edges of the quadrangles; in FIG. 7 - perforated strip after trimming the edges of the quadrangles; in FIG. 8 - perforated strip after trimming the edges of the quadrangles, bent in a wave-like fashion along straight fold lines; FIG. 9 is a perspective view of a perforated strip folded into a subsection ring; in FIG. 10 - one of four hollow rectilinear perforated sections with wavy pockets, general view; in FIG. 11 is a section bb in FIG. 10; in FIG. 12 shows a perforated strip with marked fold lines in the form of straight lines for pockets of a wavy shape of a hollow rectilinear perforated section in FIG. 10; in FIG. 13 - perforated strip, bent in straight lines with the formation of pockets of a wavy shape; FIG. 14 is a perspective view of a perforated strip folded into a cylindrical coil.

The vibrating screen (Fig. 1) consists of a bed 1, on which, using elastic elements, such as springs 2, an unloading device “P” is resiliently fixed and provided with a vibrator 3 to which a toroidal screening surface 4 is rigidly attached. The loading device is not shown in the drawings.

The screening surface 4 (Fig. 2, Fig. 3) is made in the form of a square (Fig. 2) with a screw perforated surface along the inner perimeter (Fig. 3) in the form of pockets of a wavy shape and is mounted from four perforated sections rigidly connected alternately to each other 5, 6, 7, 8, made in the form of a circular perforated sector with four rectilinear perforated sections 9, 10, 11, 12 (Fig. 2).

The perforated sections 5, 6, 7, 8 are made in the form of a circular hollow perforated sector (Fig. 4) with a wave-like multi-start screw perforated surface of double curvature, provided with helical grooves inside and outside at an angle to its axis in the form of pockets of a wave-like shape (Fig. 5 ) with centers of curvature located outside 13, 14, 15, 16, 17, 18, and pockets of a wave-like shape with centers of curvature located inside the cross section 19, 20, 21, 22, 23, 24 of a circular hollow perforated sector, and are mounted from perforated 25 subsections (Fig. 4). One of the perforated subsections 25 in FIG. 4 is highlighted by solid thickened lines, made in the form of a ring 25 and interconnected by known methods, such as welding, adhesive, etc. Perforated subsections 25 are interconnected by known methods, for example, welding, adhesive, etc., with the formation of screw grooves inside and outside at an angle to the axis of the perforated sections 5, 6, 7, 8 along the outer and inner perimeters in the form of pockets with a wavy shape with centers of curvature located outside and inside the cross section of a circular hollow perforated sector - perforated sections 5, 6, 7, 9.

Pockets of a wave-like shape along the outer perforated surface 13, 14, 15, 16, 17, 18 (Fig. 5) and pockets of a wave-shaped shape along the inner perforated surface 19, 20, 21, 22, 23, 24 around the perimeter of the perforated sections 5, 6, 7, 8, 9 can be different not only in shape, but also in size.

Each of the perforated subsections 25 is made of a perforated strip 26 (Fig. 6), bent in a wave-like fashion along the fold lines 27, located at equal angles X to the longitudinal edges of the perforated strip 26 and placed at equal distances L between the fold lines 27. The distance L is equal to the sum of the lengths the perimeters of the geometric figures of the pockets of the inner and outer perforated surfaces, namely the distance between points AB, BB, BB, GD, DE, Ε-A (Fig. 5).

Thus, each of the perforated subsections 25 is made in the form of a ring (Fig. 4) and is mounted from a perforated strip 26 (Fig. 6, Fig. 7), on which rectangles 27 are marked (one of the rectangles is shown in Fig. 6 by a double line) and bend lines 28 located at equal distances from each other equal to the scan length of the perimeter of the wave-like pockets at distances L and at an angle α to the longitudinal edges of the perforated strip 26.

On the perforated strip 26, the trim lines 29 of the edges of the perforated strip 26 shown in FIG. 6 dashed line with two dots. After marking along the trim line of the edges 29, the sections of the perforated strip 26 (in FIG. 6 these sections of the strip 26 are shaded) are cut off and the perforated strip 26 takes the form shown in FIG. 7, in which the bend lines 28 of the perforated strip 26 are different in length L ₁ , L ₂ , L ₃ , L ₄ , L ₅ , L ₆ with the formation of different sized quadrangles with two parallel sides - bend lines 28 parallel to each other . The perforated strip 26 (Fig. 7) after trimming the edges of the rectangles 27 along the trim line 29 is bent in a straight line (Fig. 8), placed at an angle α to the edges of the perforated strip 26, with the formation of undulating surfaces AB, BB, V-G, G-D, D-E, и-A and then folds into a ring 25 (Fig. 9) with a curved wavy perforated surface. The wave-shaped perforated strip after folding into the ring 25 is connected by known methods, for example by welding, soldering, etc., along the transverse edges 30 and 31 (Fig. 7, Fig. 8) of the perforated strip 26 with the formation of a perforated subsection 25 in the form of a ring.

Thus, the perforated subsections 5, 6, 7, 8 (Fig. 3, Fig. 4) are made in the form of a circular perforated sector and are made around the perimeter in the form of a multi-starting wave-shaped screw perforated surface of a curved shape at an angle to the axis of the perforated subsections.

Perforated sections 5, 6, 7, 8 (Fig. 4, Fig. 5) in the form of a hollow circular perforated sector with a wave-shaped screw perforated surface along its inner and outer perimeters and the formation of wave-shaped pockets and unidirectional multi-helix lines along their inner surfaces be made in another way.

Four hollow rectilinear perforated sections 9, 10, 11, 12 (FIG. 10, FIG. 11) with wave-shaped pockets, for example section 9, are made of at least one perforated strip 32 connected along the longitudinal edges 33 (shown in Fig. 10 by a dash-dot line), and are made around the perimeter in the form of a multiple-helical perforated surface with helical grooves inside and outside in the form of pockets of a wave-like shape at an angle of 10-80 ° to the axis of a rectilinear perforated section, for example, 9, with the centers of curvature of the pockets of a wave-like oh the shape of a screw perforated surface, alternately located outside and inside its cross section. Thus, each of the four hollow rectilinear perforated sections 9, 10, 11, 12 (Fig. 10, Fig. 11) is made of at least one perforated strip 32 connected along the longitudinal edges 33 (shown in Fig. 2 dash the dashed line) by known methods, for example, welding, with the formation on the outer and inner perforated surfaces directed to one side at an angle of 10-80 ° screw perforated surfaces in the form of pockets of a wavy shape along the inner perforated surface 34, 35, 36, 37, 38, 39 and pockets olnoobraznoy form of a perforated outer surfaces 40, 41, 42, 43, 44, 45, which perimeter hollow rectilinear apertured sections may be different not only in shape but also the size. The perforated strip 32 (Fig. 12, Fig. 13) is bent in a wave-like fashion along straight lines 46 located at equal angles X to the edges 33 of the perforated strip 32 and placed at a distance L between the fold lines 46. The distance L is equal to the sum of the lengths of the perimeters of the geometric figures of the inside pockets and outer surfaces. The perforated strip 32 after a wave-shaped bend (Fig. 13) is folded into cylindrical coils (Fig. 14), connected to each other along the longitudinal edges 33 by known methods in a hollow rectilinear perforated section.

Vibrating screen works as follows.

The perturbing force of the vibrator 3 through the walls of the screening surface is transmitted to the particles of the screening material located inside the screening surface 1. The particles of the screening material under the influence of vibration rotate in planes perpendicular to the axis of symmetry of the hollow screening surface 4 and pockets of a wavy shape around its perimeter. The presence of wave-like pockets around the perimeter of the screening surface 4 changes the direction of movement of the particles of the screened material, as a result of which they not only acquire directional movement from loading to unloading, but also compression zones are formed along the entire length of the path of their movement inside the screening surface 4, screening productivity increases, expanding technological capabilities.

The particles of the screening materials not only intensively interact with each other, but also under the influence of vibration rotate in a plane perpendicular to the passage section of the screening surface 4. Since the cross-sectional dimensions along the length of the screening surface 4 change in shape and location, the disturbance of particle movement is aggravated screening materials, i.e. there is an increase in screening performance. The presence of screw perforated wave-shaped surfaces and helix lines around the perimeter of the screening surface ensures the movement of the screening material not only in hollow straight-line perforated sections of the screening surface 4, but also in hollow perforated sections made in the form of a circular perforated sector, which contributes not only to complicate the trajectories of their movement , but also their movement along the passage section of the screening surface 4 from loading to unloading. When the screening material moves along the cross-section of the screening surface 4 due to changes in the cross-section in shape and size, compression and vacuum zones are alternately formed in each cross-section of the screening surface 4 over its entire volume, which also intensifies the screening process and expands technological capabilities.

Technical and economic advantages arise due to the implementation of the screening surface of the vibrating screen in the form of a square, the surface of which is equipped with unidirectional helical lines and screw perforated surfaces, in the form of pockets of a wave-like shape, which provide a change in the direction of flow of particles of the screened material and the expansion of technological capabilities.

Claims (1)

A vibrating screen containing a screening surface, a drive, loading and unloading devices, characterized in that the screening surface is resiliently mounted on the bed, is equipped with a vibrator and is made hollow in the form of a square with a wave-shaped screw perforated surface along the inner perimeter, with pockets of a wave-shaped, directed in one side at an angle of 10-70 ° to the axis of the screening surface, while the screening surface is mounted from four rigidly alternately rigidly connected to each other hollow perforated sections made in the form of a hollow circular perforated sector with four hollow rectilinear perforated sections, and four perforated sections made in the form of a hollow circular perforated sector with a wave-shaped multi-helical perforated surface with a twofold curvature provided with and inside the spiral grooves with 10 circular grooves -70 ° to its axis in the form of pockets of a wavy shape with centers of curvature located outside and inside and a cross section of a circular perforated sector, mounted from perforated subsections, each of which is made of a perforated strip, rolled into a ring to form different sized quadrangles with two parallel sides parallel to each other, while the perforated subsections are connected to each other by the free sides of the aforementioned quadrangles in the form of a hollow screening surface with the formation on the outer and inner surfaces directed to one side at an angle of 10-70 ° to the longitudinal axis of the circular perforated sector, wave-shaped screw perforated surfaces in the form of pockets of a wave-like shape on the outer and inner perforated surfaces, which around the perimeter of the circular perforated sector can be different not only in shape but also in size, at this the distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of the pockets of the inner and outer surfaces, and the four hollow rectilinear perforated sections along the perimeter of the are made of one or more perforated strips, bent in waves along fold lines placed at an angle to their longitudinal edges, with the formation of perforated screw surfaces in the form of pockets of the outer perforated surface along the outer and inner perforated surfaces pointing to one side at an angle of 10-70 ° pockets of the inner perforated surface of a wavy shape, while the shape and dimensions of the pockets along the inner perforated surface may differ from the shape and dimensions of the pockets on Of the perforated surface and around the perimeter of the rectilinear section, the pockets can be different not only in shape but also in size.

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