RU2580128C1 - Vibratory plant for dewatering of loose materials - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to equipment for the separation of waste fodder complexes in liquid and solid phases suitable for transportation to the fields as fertilizer in a liquid or solid raw material for the manufacture of hydrated pectin, separating the liquid phase from the granular materials during drying materials. Vibration machine for dewatering of bulk materials includes a filter, a charging device and the discharging device for discharging filtrate and condensed fraction. Filter resiliently mounted on the base with a vibrator, mounted horizontally inside the base, and is made in the form of a square, made hollow with a curved surface by a perforated spiral inner perimeter with curved pockets. When this filter is mounted in turn rigidly connected to each other four perforated hollow sections made in the form of a hollow perforated circular sector with four perforated hollow rectilinear sections. Four perforated section formed in a hollow circular perforated sector curved multistart helical perforated surface provided with helical grooves inside the circular perforated sector at an angle to its axis in the form of pockets of curved shape with centers of curvature located inside the cross section of a circular perforated sector mounted perforated subsections, each of which is made of a perforated strip, coiled into a ring to form different size quadrangles with two parallel sides positioned parallel to each other. Thus perforated subsections are interconnected by free sides of said quadrangle in form of a hollow circular perforated sector to form the inner perforated surface in the same direction at an angle to the longitudinal axis of the circular perforated sector curved helical perforated surfaces in the form of pockets curved shape along the inner perforated surface. Distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of pockets inside and perforated surfaces and four hollow rectilinear perforated sections along the perimeter made from one or more perforated strips bent curvilinearly from placed at an angle to their longitudinal edges along fold lines to form internal perforated surface in the same direction at the angle of helical surfaces in the form of a perforated pocket perforated inner curved surface. Discharge device is designed as a circular skirt with a discharge opening for discharging filtrate attached to the base at an angle β to the horizon.

EFFECT: technical result is to expand the technological capabilities of vibration machine, the increase in productivity of the plant, as well as an increase in the path of the bulk material in the filter.

1 cl, 16 dwg

Description

The invention relates, for example, to agriculture, in particular to equipment for separating feed and feed complex wastes into liquid and solid phases, suitable for transportation to fields as fertilizers in a liquid or solid state, for dehydration of raw materials in the production of pectin, separation of the liquid phase from bulk materials when drying materials.

A device for isolating the liquid phase from materials, an inertial thickener (RF patent No. 2469768, MKI B01D 33/27, publ. 2.12.2012, bull. No. 35), including an outer drum, inside which is fixed a screw insert, a filter made around the perimeter in the form of a multi-start screw perforated surface with screw perforated grooves inside and outside the filter at an angle of 5 ° -45 ° to the axis of rotation of the filter in the form of perforated pockets of curvilinear shape with centers of curvature located alternately outside and inside the cross section f liter, mounted from one, rolled into cylindrical coils, connected to each other along the longitudinal edges of the perforated strip of the same width, bent in waves along bend lines placed at an angle to its longitudinal edges with the formation on the outer and inner surfaces of the filter directed to one side of screw perforated surfaces in the form of pockets of curved shape on the outer and inner surfaces,

A disadvantage of the known design is the large dimensions in length, the complexity of manufacturing and limited technological capabilities.

Closest to the proposed invention is a device for separating the liquid phase from materials (patent No. 2486942, class B01D 33/27, publ. 07/10/2013 Bull. No. 19), containing mounted on the base of the outer drum, inside which is fixed a screw insert , loading device, unloading devices for draining the filtrate and thickened fraction and the filter are mounted from at least one rolled into cylindrical coils connected to each other along the longitudinal edges of the perforated strip bent at angled to its longitudinal edges, fold lines with the formation on the outer and inner surfaces of one-way helical lines and screw surfaces in the form of perforated pockets of a polygonal shape, the distance between the fold lines is equal to the length of each element of the polygon, while the perforated pockets along the inner surface may differ from the shape and size of the perforated pockets along the outer surface and around the perimeter of the drum may be different not only, but also in shape.

A disadvantage of the known design are large dimensions in length and limited technological capabilities.

The technical solution to the problem is to reduce the overall length and expand the technological capabilities of the installation.

The technical solution is achieved by the fact that in a vibrating installation for dehydration of bulk materials containing a filter, a loading device, discharge devices for draining the filtrate and thickened fraction, the filter is resiliently mounted on the base with a vibrator mounted horizontally mounted inside the base, and made in the form of a square made hollow with a curved screw perforated surface along the inner perimeter with pockets of a curved shape, while the filter 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 curved multi-aperture screw perforated surface provided with a helical an angle to its axis in the form of pockets of curved shape with centers of curvature, located 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 by free sides the said quadrangles in the form of a hollow circular perforated sector with the formation along the inner perforated surface directed to one side at an angle to the longitudinal axis of the circular perforated sector of curved helical perforated surfaces in the form of pockets of curved shape on the inner perforated surface, 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 perforated surfaces, and four hollow rectilinear perforated sections along the perimeter are made of one or more perforated strips bent curvilinearly placed at an angle to their longitudinal edges fold lines with the formation on the perforated inner surface of one-sided perforated helical perforated surfaces in the form of pockets of an inner perforated surface of a curved shape, and the discharge device is made in the form of an annular skirt with a discharge hole for discharging the filtrate attached to the base at an angle β to the horizon.

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 a vibration device for dehydration of bulk materials.

The novelty is due to the fact that the installation of the vibrator horizontally inside the platform with the filter increases the specific gravity of the total kinetic energy (E _p ) 1.3-1.5 times and increases productivity and changes the trajectory of the movement of bulk materials inside the filter, which is given the trajectory of movement in the form of a vertical ellipse.

The novelty lies in the fact that the filter 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 curved shape, which expands technological capabilities, with the same dimensions with a filter made in the form of a torus, technological capabilities expand and increase the path (length) of movement of bulk materials in a square working filter, 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 filter is mounted from four perforated sections rigidly connected alternately to each other, made in the form of a circular perforated sector with four rectilinear sections, which expands technological capabilities, since with the same dimensions with a filter made in the form of a torus , expanding technological capabilities and increasing the path (length) of the movement of bulk materials in a square filter.

The novelty is seen in the fact that the filter pockets are made of at least one perforated strip, which simplifies the manufacture and extends the technological capabilities.

The novelty is due to the fact that the filter 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 curved shape, which provides not only an intensification of the interaction of bulk materials with each other, but also an increase in dewatering performance, as well as the expansion of technological capabilities.

The novelty of the proposal lies in the fact that curved surfaces are formed on the inner surface of the filter, which provides a change in the direction of movement of bulk materials, as a result, the intensity of dehydration increases and technological capabilities expand.

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

The novelty of the proposal also lies in the fact that the cross-sectional area around the entire perimeter of the filter varies not only in shape, but also in area, which provides alternate compression and expansion of flows of bulk materials in each section of the filter, which means an increase in dewatering performance and expansion of technological capabilities.

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

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

The novelty of the proposal lies in the fact that multiple perforated surfaces are formed on the inner surface of the filter, which provides a change in the direction of movement of bulk materials, as a result, productivity increases and technological capabilities expand.

The novelty also lies in the fact that a discharge device is attached to the base at an angle β to the horizon, made in the form of an annular skirt with a discharge opening for draining the filtrate, which expands technological capabilities.

The invention is illustrated by drawings, where: in FIG. 1 shows a vibrating installation for dehydration of bulk materials, a General view; in FIG. 2 - filter in the form of a square, top view; in FIG. 3 is a section AA in FIG. 2; in FIG. 4 is a section along BB in FIG. 2; in FIG. 5 is a section along BB in FIG. 2; in FIG. 6 - one of the four sections, made in the form of a hollow circular perforated sector, top view; in FIG. 7 is a section GG in FIG. 6; in FIG. 8 - perforated strip with marked straight bend lines and trim lines of the edges of the quadrangles; in FIG. 9 - perforated strip after trimming the edges of the quadrangles; in FIG. 10 - perforated strip after trimming the edges of the quadrangles, bent along the straight lines of the fold; FIG. 11 is a perspective view of a perforated strip folded into a subsection ring; in FIG. 12 - one of four hollow rectilinear perforated sections with curved pockets, general view; in FIG. 13 is a section DD in FIG. 12; in FIG. 14 shows a perforated strip with marked fold lines in the form of straight lines for pockets of a curved shape of a hollow rectilinear perforated section in FIG. 12; in FIG. 15 - perforated strip, bent in straight lines with the formation of pockets of curved shape; FIG. 16 is a perspective view of the perforated strip shown in FIG. 15, rolled into a cylindrical coil.

The vibrating installation for dehydration of bulk materials (Fig. 1) contains a rectangular filter 1 in the form of a square mounted inside the base 2, equipped with a vibrator 3. The base 2 is mounted by means of springs 4 on the frame 5. The filter 1 is equipped with a square loading window 6 (Fig. 1). 2, Fig. 4) with the side of the square a × a and the discharge window 7 for unloading the solid phase of materials in the form of a circle of diameter D (Fig. 2, Fig. 5), the loading device is not shown. The discharge device for draining the filtrate — the liquid phase of the materials in FIG. 1 is shown made in the form of an annular skirt 8, attached at an angle β to the horizontal to the base 2 with a discharge opening 9 for outputting the liquid phase of the material with a capacity of 10 for receiving the liquid phase. Inside the filter 1 between the loading window 6 and the unloading window 7 (Fig. 2), a partition 11 is mounted.

The vibrator 3 is mounted horizontally inside the base 2 and therefore provides the movement of bulk materials inside the filter 1 under the influence of the vibrator 3 along elliptical vertical paths.

The filter 1 is made in the form of a square (Fig. 2) with a curved helical perforated surface along the inner perimeter (Fig. 3) in the form of pockets of a curved shape and is mounted from four sections 12, 13, 14, 15, rigidly connected to each other, made in in the form of a circular perforated sector with four rectilinear perforated sections 16, 17, 18, 19 (Fig. 2).

The perforated sections 12, 13, 14, 15 are made in the form of a circular hollow perforated sector 20 (Fig. 6) with a curved screw perforated surface along the inner perimeter in the form of pockets of a curved shape 21, 22, 23, 24, 25, 26 (Fig. 7 ) and mounted from a perforated strip 27 (Fig. 8), on which rectangles 28 and bend lines 29 are placed, placed at equal distances from each other, equal to the length of the scan of the perimeter of curved pockets, for example for pockets 21, 22, 23, 24, 25 , 26 at distances L and at an angle α to the edges perforated second strip 27.

On the perforated strip 27, the trim lines 30 of the edges of the perforated strip 27 shown in FIG. 8 dash-dot line with two dots. After marking along the trim line of the edges 30, the sections of the perforated strip 27 (in Fig. 8, these sections of the perforated strip 27 are shaded) are cut off and the perforated strip 27 takes the form shown in FIG. 9, in which the bend lines 29 of the perforated strip 27 are different in length L ₁ , L ₂ , L ₃ , L ₄ , L ₅ , L ₆ with the formation of different sizes of quadrangles with two parallel sides - bend lines 29 parallel to each other . The perforated strip 27 (Fig. 9) after trimming the edges of the rectangles 28 along the trim line 30 is bent in straight lines placed at an angle α to the edges of the perforated strip 27, with the formation of curved perforated surfaces 31 (Fig. 6, Fig. 11) with a curved inner perforated surface in the form of pockets 21, 22, 23, 24, 25, 26. The edges 32 and 33 of the perforated strip 27 after folding into a subsection ring 20 are connected by known methods, such as welding, soldering, etc., with the formation of a perforated subsection rings 20. Then lane orirovannye subsection 20 are connected to each other by methods known in the circular hollow perforated sector in the form of perforated sections 12, 13, 14, 15.

Perforated sections 12, 13, 14, 15 (Fig. 12, Fig. 13) in the form of a hollow circular perforated sector with a curved helical perforated surface along its inner and outer perimeter and the formation of curved pockets and unidirectional multi-helix lines along their inner perforated surface can be made in another way.

Four hollow rectilinear perforated sections 16, 17, 18, 19 (FIG. 12, FIG. 13) with curved pockets, for example perforated section 16, are made of at least one perforated strip 34 connected along the longitudinal edges 35 and 36 (shown in Fig. 12 by a dash-dot line) by known methods, for example, by welding, with the formation of helical lines along the outer and inner perforated surfaces (in Fig. 12, part of one of the helical lines is shown by a thickened line 37-38-39-40-41-42-43) and screw perforated surfaces (Fig. 1 3) curved shape in the form of pockets of the inner surface of a semicircular shape 44, 45, 46, 47, 48, 49.

The perforated strip 34 (Fig. 14, Fig. 15) is bent along straight lines 50 at equal angles β to the edges of the perforated strip 34 placed at a distance equal to the scan length of the perimeter of the curved pockets, for example, for pocket 49 at distances L ₁ .

The perforated strip 34 after bending (Fig. 15) is folded into cylindrical coils (Fig. 16), connected to each other along the longitudinal edges 35 and 36 by known methods, for example by welding, into a hollow, straight-line perforated section, for example 16, 17, 18, 19 .

Hollow rectilinear perforated sections, for example, 16, 17, 18, 19 are rigidly connected alternately with hollow perforated sections 12, 13, 14, 15 in the form of a circular perforated sector (Fig. 2) along the lines of joining II, II-II, III-III , IV-IV, VV, VI-VI, VII-VII, VIII-VIII with the formation of a continuous hollow filter 1 in the form of a square with a curved screw perforated surface along the inner perimeter in the form of pockets of a curved shape.

Vibration installation for dehydration of bulk materials is as follows.

The disturbing force of the vibrator 3 through the walls of the base 2 and the filter 1 is transmitted to the particles of materials inside the filter 1 and entering the filter 1 by a continuous stream through the loading device (not shown). Particles of materials rotate along vertical elliptical trajectories, during which the dehydration process takes place. In this case, the particles of materials not only intensively interact with each other, but also under the influence of vibration rotate in a plane perpendicular to the flow area of filter 1. Since the length of the filter 1 has a cross-sectional shape, shape and location, the disturbance of the movement of particles of materials is aggravated , which, while interacting with the perforated walls of the filter 1, move from loading to unloading. The presence of screw perforated surfaces and helical lines around the perimeter of the filter 1 contributes not only to the complication of the trajectories of the movement of particles of materials, but also to the movement along the passage section of the filter 1 towards the discharge side. The device for unloading is not shown in the drawings. In this case, the filtrate - the liquid phase is discharged through the perforated walls of the filter 1 and, with the help of the skirt 8, is discharged into the container 10 by means of the discharge opening 7 to receive the liquid phase.

During the movement of particles of materials along the cross-section of the filter 1 due to changes in the cross-section in shape and size, compression and rarefaction zones are formed alternately in each cross section of the filter 1 over its entire volume, which also intensifies the dehydration of materials and expands technological capabilities. The dehydrated material is discharged through the discharge window 7 by means of a discharge device (not shown in the drawings) beyond the limits of the vibratory device for dehydration of bulk materials.

Technical appraisal and economic advantages of the vibratory unit for dehydration of bulk materials arise due to the implementation of the filter in the form of a square, expanding technological capabilities, increasing the productivity and path (length) of movement of bulk materials in the filter, the perforated surface of which is provided with unidirectional helical lines and screw perforated surfaces in the form of pockets curved shape, which provide a change in the direction of flow of bulk materials and the expansion of t hnologicheskih opportunities, as well as reducing the length dimensions.

Technical and economic advantages arise due to the shape of the trajectory of the movement of bulk materials in the form of a vertical ellipse, which provides an increase in the specific gravity of the total kinetic energy (E _p ) 1.3.-1.5 times and increases productivity by mounting the vibrator horizontally inside the base with a filter, which increases performance and expand technological capabilities.

Claims (1)

A vibratory installation for dehydration of bulk materials containing a filter, a loading device, discharge devices for removing the filtrate and thickened fraction, characterized in that the filter is resiliently mounted on the base with a vibrator mounted horizontally mounted inside the base, and made in the form of a square made hollow with a curved screw perforated surface along the inner perimeter with curved pockets, while the filter is mounted from rigidly connected alternately to each other four hollow perforated sections made in the form of a hollow circular perforated sector with four hollow rectilinear perforated sections, four perforated sections made in the form of a hollow circular perforated sector with a curved multi-helical perforated surface provided with helical grooves in its perforated circle inside the circle axes in the form of pockets of curvilinear shape with centers of curvature located transversely sections 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 said quadrangles in the form of a hollow circular perforated sector with the formation along the inner perforated surface directed in one the torus at an angle to the longitudinal axis of the circular perforated sector of curved helical perforated surfaces in the form of pockets of a curved shape along the inner perforated surface, 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 perforated surfaces, and four hollow rectilinear perforated sections along the perimeter are made of one or more perforated strips bent curvilinearly placed at an angle to their longitudinal edge fold lines to form the inner perforated surface directed to one side at an angle of screw perforated surfaces in the form of pockets perforated inner surface of the curved shape, wherein the discharge device is designed as an annular skirt with a discharge opening for discharging the filtrate, attached to the base at an angle β to the horizontal.

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