RU2614796C1 - Vibration grinder - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: vibrational mill includes a housing, resiliently mounted on the base and provided with a vibrator. The hollow body is made with pockets waveform, in the same direction at an angle of 30-70° to the axis of the housing. The body is composed of four hollow sections made in the form of a hollow circular sector with four straight hollow sections. Subsections are interconnected to form at the outer and inner surfaces directed to one side at an angle of 30-70° to the longitudinal axis of the circular sector helical surfaces undulating in a wavelike form pockets.

EFFECT: increase in grinding performance.

14 dwg

Description

The invention relates to techniques for grinding solid materials and can find application in the construction, chemical and metallurgical industries, as well as in agricultural production.

Known tube mill containing loading and unloading pins, drive and drum, made of at least one strip (RF patent No. 2358808, MKI V02C 17/04, publ. 06/20/2009., Bull No. 17) with the formation on the inner surface of pockets polygonal and curved shape.

A disadvantage of the known device is limited technological capabilities, insufficient productivity and large dimensions in length.

Closest to the proposed invention is a vibration mill (RF patent No. 2350391, MKI B02C 17/02, publ., 03/27/2009. Bull. No. 9), containing a toroidally-shaped housing mounted on the base with a vibrator mounted vertically, while the housing is made of sections, each of which is mounted from a strip bent to one side in straight lines placed at an angle to the edges of the strip, with alternating formation along the length of the strip of different sizes of equilateral and isosceles triangles and the formation of the outer and inner her surfaces of broken helical lines and helical surfaces.

A disadvantage of the known device is the limited technological capabilities due to the circular shape of the oscillation path of the housing and insufficient grinding performance, manufacturing complexity, insufficient path length of the grinding materials.

The technical result is the expansion of technological capabilities, increase productivity and path (length) of the movement of the crushed materials in the housing.

The technical result is achieved by the fact that in a vibration mill containing an elastically mounted base, equipped with a vibrator housing, the housing is hollow in the form of a square with a wave-shaped helical surface along the inner perimeter, with wave-shaped pockets directed to one side at an angle of 30 ° -70 ° to the axis of the casing, while the casing is mounted from four hollow sections rigidly alternately connected to each other, made in the form of a hollow circular sector with four hollow rectilinear sections holes, and four sections made in the form of a hollow circular sector with a wave-like multi-start screw surface of double curvature, equipped with helical grooves inside and outside the circular sector at an angle of 30 ° -70 ° to its axis in the form of pockets of wave-like shape with centers of curvature located outside and inside the cross section of a circular sector, mounted from subsections, each of which is made of a strip rolled into a ring to form different-sized quadrangles with two parallel sides, parallel to each other, while the subsections are connected to each other by the free sides of the said quadrangles in the form of a hollow body with the formation on the outer and inner surfaces directed to one side at an angle of 30 ° -70 ° to the longitudinal axis of the circular sector of wavy helical surfaces in the form of pockets wave-shaped along the outer and inner surfaces, which along the perimeter of the circular sector can be different not only in shape but also in size, while the distance between the lines ba is equal to the sum of the lengths of the perimeters of the geometric figures of the pockets of the inner and outer surfaces, and the four hollow rectilinear sections along the perimeter are made of one or more strips bent in waves along the bend lines placed at an angle to their longitudinal edges, with the formation along the outer and inner surfaces directed to one side at an angle of 30 ° -70 ° of screw surfaces in the form of pockets of the outer surface and pockets of the inner surface of a wavy shape.

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 vibration mill.

The novelty lies in the fact that the casing is made in the form of a square with a curved helical surface along the inner perimeter in the form of pockets of a wavy shape, which expands technological capabilities, with the same dimensions compared with the casing made in the form of a torus, technological capabilities expand and increase the path (length) of the movement of the flows of crushed materials in a square case, since the length along the perimeter of the torus (circle) of diameter D is L ₁ = πD, and the length along the perimeter of the square is L ₂ = 4D, (L ₂ > L ₁ ).

The novelty is also due to the fact that the casing is mounted from four sections rigidly alternately rigidly connected to each other, made in the form of a circular sector with four rectilinear sections, which expands the technological capabilities, and since with the same dimensions (the area occupied by the installations) with the casing made in the form of a torus, expanding technological capabilities and increasing the path (length) of the movement of the crushed materials in a square case.

The novelty is seen in the fact that the pockets of the case are made of a wave-like shape from at least one strip, which expands the technological capabilities.

The novelty also lies in the fact that the pockets around the perimeter of the case can be different not only in shape, but also in size, which expands technological capabilities.

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

The novelty is due to the fact that the case is made square and mounted from four sections rigidly connected alternately to each other, made in the form of a circular sector with four rectilinear sections with a wavy helical surface along the inner perimeter in the form of wavy-shaped pockets, which provides not only the intensification of the interaction of flows and particles of crushed materials, increasing productivity, but also expanding technological capabilities.

The novelty of the proposal lies in the fact that on the inner surface of the body formed by the surface of a wave-like shape, which around the perimeter can be different not only in shape but also in size, which provides a change in the direction of movement of the crushed materials, resulting in increased productivity and expanded technological capabilities.

The novelty is due to the fact that the sections from which the case is assembled are mounted around the perimeter from strips with quadrangles marked on them, different in size and area, so the intensity and productivity of grinding materials increases, technological capabilities expand.

The novelty of the proposal also lies in the fact that the cross-sectional area around the entire perimeter of the casing changes not only in shape, but also in area, which provides alternate compression and expansion of the flows of crushed materials in each casing cross section, which means increased productivity and expanded technological capabilities.

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

The novelty also lies in the fact that the casing is made of sections, the walls of which are not only inclined to each other, but also to the direction of the rotational movement of particles of crushed materials moving under the influence of vibration in planes perpendicular to the passage section of the casing, which complicates the trajectory of their movement and increases grinding intensity and expand technological capabilities.

The invention is illustrated by drawings, where: in FIG. 1 shows a vibration mill, general view; in FIG. 2 - a case 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 sections, made in the form of a hollow circular sector, top view; in FIG. 5 is a section BB in FIG. four; in FIG. 6 - strip with marked straight lines of bending and cutting lines of the edges of the quadrangles; in FIG. 7 - strip after trimming the edges of the quadrangles; in FIG. 8 - a 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 strip folded into a ring subsection; in FIG. 10 - one of four hollow rectilinear sections with pockets of a wavy shape, general view; in FIG. 11 is a section bb in FIG. 10; in FIG. 12 is a strip with marked fold lines in the form of straight lines for pockets of a wavy-shaped hollow rectilinear section in FIG. 10; in FIG. 13 - a strip bent in straight lines with the formation of pockets of a wavy shape; FIG. 14 is a perspective view of a strip folded into a cylindrical coil.

The vibration mill (Fig. 1) consists of a housing 1 mounted on a platform 2 equipped with a vibrator 3. Platform 2 by means of springs 4 is mounted on the base 5.

The housing 1 is made in the form of a square (Fig. 2) with a helical surface along the inner perimeter (Fig. 3) in the form of pockets of a wave-like shape and is mounted from four sections 6, 7, 8, 9, rigidly alternately connected to each other, made in the form of a circular sectors with four rectilinear sections 10, 11, 12, 13 (Fig. 2).

Sections 6, 7, 8, 9 are made in the form of a circular hollow sector (Fig. 4) with a wave-like multi-start screw surface of double curvature, equipped with screw grooves inside and outside at an angle to its axis in the form of pockets of a wave-like shape (Fig. 5) with centers curvatures located outside 14, 15, 16, 17, 18, 19, and pockets of wave-like shape with centers of curvature located inside the cross section 20, 21, 22, 23, 24, 25 of the circular hollow sector, and mounted from subsections 26 (Fig. . four). One of the subsections 26 in FIG. 4 is highlighted by solid thickened lines, made in the form of a ring 26. Subsections 26 are interconnected by known methods, for example, welding, adhesive, etc., with the formation of screw grooves inside and outside the perimeter under and inside the corner to the axis of sections 6, 7 , 8, 9 in the form of pockets of a wavy shape with centers of curvature located outside and inside the cross section of a circular hollow sector - sections 6, 7, 8, 9.

Pockets of a wave-like shape on the outer surface 14, 15, 16, 17, 18, 19 (Fig. 5) and pockets of a wave-like shape on the inner surface 20, 21, 22, 23, 24, 25 around the perimeter of sections 6, 7, 8, 9 can be different not only in shape but also in size.

Each of the subsections 26 is made of a strip 27 (Fig. 6), bent in a wave-like fashion along the fold lines 28 located at equal angles α to the longitudinal edges of the strip 27 and placed at equal distances L between the fold lines 28. The distance L is the sum of the lengths of the perimeters of the geometric figures pockets of the inner and outer surfaces, namely, the distance between points AB, BB, BB, GD, DE, EA (Fig. 5).

Thus, each of the subsections 26 is made in the form of a ring (Fig. 4) and is mounted from a strip 27 (Fig. 6, Fig. 7), on which rectangles 28 are marked (one of the rectangles shown in Fig. 6 with a double line) and lines fold 29, placed from each other at equal distances 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 strip 27.

On the strip 27, the trim lines 30 of the edges of the strip 27 shown in FIG. 6 dash-dot line with two dots. After marking along the trim line of the edges 30, sections of the strip 27 (in FIG. 6 these sections of the strip 27 are shaded) are cut off and the strip 27 takes on the form shown in FIG. 7, in which the fold lines 29 of the strip 27 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 — fold lines 29 parallel to each other. The strip 27 (Fig. 7) after trimming the edges of the rectangles 28 along the trim line 30 is bent in a straight line (Fig. 8), placed at an angle α to the edges of the strip 27 with the formation of wavy surfaces AB, BB, C-D , G-D, D-E, EA, and then collapses into a ring 26 (Fig. 9) with a curved wavy surface. The wave-like strip after folding into a ring 26 is connected by known methods, for example by welding, soldering, etc., along the transverse edges 31 and 32 (Fig. 7, Fig. 8) of the strip 27 with the formation of a subsection 26 in the form of a ring.

Thus, the subsections 6, 7, 8, 9 (Fig. 3, Fig. 4) are made in the form of a circular sector and are made around the perimeter in the form of a multi-start wave-shaped helical surface of a curved shape at an angle to the axis of the subsections.

Sections 6, 7, 8, 9 (Fig. 4, Fig. 5) in the form of a hollow circular sector with a wavy helical surface along its inner and outer perimeter and the formation of wavy pockets and unidirectional multi-helical helical lines on their inner surfaces can be made and in a different way.

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

Hollow rectilinear sections, for example 10, 11, 12, 13, with wave-shaped pockets are rigidly connected alternately with hollow sections 6, 7, 8, 9 also with wave-shaped pockets along the docking lines (at the docking points in Fig. 2 they are shown by dashed lines along the entire perimeter of the square case) with the formation of a continuous hollow body 1 in the form of a square with pockets of a wave-like shape along its inner perimeter.

Vibratory mill operates as follows.

The disturbing force of the vibrator 3 through the walls of the housing 1 is transmitted to the particles of crushed material located inside the housing 1. A square mill operates as follows.

The disturbing force of the vibrator through the walls of the housing 1 is transmitted to the particles of crushed materials inside the housing 1 and entering the housing 1 in a continuous stream through the loading device (not shown). Particles of crushed materials rotate along vertical elliptical trajectories, while the process of grinding materials occurs. The presence of curvilinear multidirectional elements, including pockets of a wave-like shape, the shape along the inner perimeter of the housing 1 changes the direction of flow of particles of the crushed materials, as a result of which it not only acquire directional movement from loading to unloading, but also compression zones are formed along the entire length the path of the crushed materials inside the housing 1, the productivity of the vibratory mill is increased, technological capabilities are expanded. In this case, the particles of the crushed materials not only intensively interact with each other, but also under the influence of vibration rotate in a plane perpendicular to the through section of the casing 1. Since the spiral casing 1 has the cross-sectional dimensions, shape and location as the crushed materials move from the load to unloading change, then the disturbance of the movement of particles of the crushed materials, which in this case interact with the pockets of the wave-like shape of the inner walls of the housing 1, is compounded those. there is an increase in the intensity of the crushed materials. The presence of helical surfaces and helical lines around the perimeter of the housing 1 contributes not only to the complication of the trajectories of particles of the crushed materials, but also to their movement along the passage section of the housing 1 towards the discharge side and to the discharge device (not shown in the drawing).

When particles of the crushed materials move along the bore of the spiral casing 1 due to changes in the bore in shape and size, compression and rarefaction zones are formed in each section of the spiral casing 1 throughout its volume, which also intensifies the process of grinding materials and expands technological capabilities. The presence of helical surfaces and helical lines around the perimeter of the housing 1 provides the movement of flows of bulk materials not only in the hollow rectilinear sections of the housing 1, but also in the hollow sections, made in the form of a circular sector, which contributes not only to complicate the trajectories of their movement, but also their movement along the cross section of the housing 1 from loading to unloading. When particles of the crushed materials move along the bore of the casing 1 due to a change in the bore in shape and size, compression and rarefaction zones are formed in each section of the casing 1 throughout its volume, which also intensifies the grinding process and expands the technological capabilities.

Technical and economic advantages arise due to the execution of the square mill body in the form of a square, the inner surface of which is equipped with unidirectional helical lines and helical surfaces in the form of pockets of a wave-like shape, and also due to the fact that particles of the crushed materials under the influence of vibration rotate in planes, perpendicular to the axis of symmetry of the hollow body and wave-shaped pockets around its perimeter, as well as due to the fact that during the movement of flows of particles of the grind Mykh materials through body section due to changes in the flow cross section in shape and dimensions are formed alternately compression and rarefaction zones in each section of the housing over its entire volume, which intensifies the grinding process and broadens technological capacities.

Technical and economic advantages arise due to the installation of a vibrator horizontally under a platform with a square body, which provides an increase in the specific gravity of kinetic energy by 1.3-1.5 times and increases productivity.

Claims (1)

A vibration mill comprising an elastic housing mounted on a base and equipped with a vibrator, characterized in that the housing is hollow in the form of a square with a wavy helical surface along the inner perimeter with wave-shaped pockets directed to one side at an angle of 30-70 ° to the axis of the housing, this housing is mounted from rigidly alternately connected to each other four hollow sections, made in the form of a hollow circular sector with four hollow rectilinear sections, and four sections and, made in the form of a hollow circular sector with a wave-like multi-start screw surface of double curvature, provided with helical grooves inside and outside the circular sector under the angle of 30-70 ° to its axis in the form of pockets of wave-like shape with centers of curvature located outside and inside the cross section of the circular sector are mounted from subsections, each of which is made of a strip rolled into a ring to form different-sized quadrangles with two parallel sides parallel to each other but to each other, while the subsections are connected to each other by the free sides of the mentioned quadrangles in the form of a hollow body with the formation on the outer and inner surfaces directed to one side at an angle of 30-70 ° to the longitudinal axis of the circular sector of wave-shaped helical surfaces in the form of pockets of wave-shaped outer and inner surfaces, which along the perimeter of the circular sector can be different not only in shape but also in size, while the distance between the fold lines is equal to the sum of the lengths of the perimeter ditch of geometric figures of pockets of the inner and outer surfaces, and four hollow rectilinear sections along the perimeter are made of one or more strips bent in waves along the bend lines placed at an angle to their longitudinal edges with the formation along the outer and inner surfaces directed to one side at an angle of 30 70 ° screw surfaces in the form of pockets of the outer surface and pockets of the inner surface of a wavy shape.

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