RU2487743C2 - Plant for removal of liquid phase from materials - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to food industry and may be used at tinned food factories. Proposed device comprises external drum accommodating helical insert, filter, inlet pipe, pipe to discharge filtrate and thickened fraction. Filter represents multifilar helical perforated surface with helical lines along its surface and helical grooves inside said filter at 5°-30° to filter rotational axis shaped to curvilinear recesses with their centres of curvature located inside filter cross-section. Said screening surface is composed of one equal width perforated strip coiled and bent in flexure lines located at angle to strip lengthwise edges to make screw lines and surfaces in the form of curvilinear recesses that differ in shape and size. Note here that distance between flexure lines equal the sum of inner perforated surface recess perimeter lengths.

EFFECT: higher efficiency and reliability.

7 dwg

Description

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

Known inertial thickener (AS No. 1389815, class B01D 33/02, 1988), comprising a housing with a cylindrical filter installed in it, an inlet pipe, a screw insert and pipes for draining the filtrate and condensed fraction.

A disadvantage of the known design is the low productivity and the need to tilt the entire structure to ensure transportation of the movement of materials from loading to unloading and limited technological capabilities.

Closest to the proposed invention is a device for separating the liquid phase from materials (patent No. 2375099, class B01D 33/27, publ. 10.12.2009, bull. No. 34), including an outer drum, inside which is fixed a screw insert, a filter made of twisted along a helical line in the longitudinal direction and curved in the transverse direction along a helical line on a conical mandrel of three or more perforated strips of trapezoidal shape with different sizes in width, an inlet pipe, a pipe for draining the filtrate and condensed fraction.

A disadvantage of the known design is the complexity of manufacture and limited technological capabilities.

The technical solution to the problem is to simplify the design and expand the technological capabilities of the installation.

The problem is achieved in that in the device for separating the liquid phase from materials, including an outer drum, inside which a screw insert, a filter, an inlet pipe, pipes for draining the filtrate and thickened fraction are fixed, the filter is made around the perimeter in the form of a multi-screw perforated surface with screw along the perimeter lines and helical grooves inside the filter at an angle of 5 ° -30 ° to the axis of rotation of the filter in the form of curved-shaped pockets with the centers of curvature of the curved-shaped pocket pockets an oriented surface located inside the cross-section of the filter is mounted from one rolled into cylindrical coils, connected to each other along the longitudinal edges, of a perforated strip of the same width, bent along the bending lines placed at an angle to its longitudinal edges, with the formation of the outer and inner perforated surfaces directed to one side at an angle of 5 ° -30 ° to the axis of rotation of the filter of helical lines and helical perforated surfaces in the form of pockets of a curved shape, which are perimeter Filter labor can be different not only in shape but also the size, the distance between the fold lines is equal to the sum of the lengths of the perimeters of the geometric shapes of the perforated inner surface of the pockets.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge about the inventive step of the proposed design of the device for separating the liquid phase from materials.

The novelty lies in the fact that such a structural design of the filter allows for axial movement of material particles from loading to unloading with a horizontal axis of rotation of the filter, which simplifies operation due to the lack of filter slope.

The novelty lies in the fact that due to the broken internal screw perforated pockets of a curvilinear shape, the vectors of the velocity of particles of materials during their transportation from loading to unloading change, which helps to intensify the processes of separation of the liquid phase from materials and expands technological capabilities.

The novelty of the proposal also lies in the fact that inside the filter there are formed multiple screw perforated surfaces with helical lines around the perimeter and helical grooves inside the filter in the form of curved pockets with centers of curvature of the pockets inside the filter, materials move along complex paths, which intensifies the process of separating the liquid phase from materials and expands technological capabilities.

The novelty also lies in the fact that with the same filter diameters in the proposed design, the path length of the particles of materials compared with the known filter designs is much longer, which makes it possible to reduce the dimensions of the filter both in length and in diameter, and also contributes to the intensification the process of separation of the liquid phase from materials and expands technological capabilities.

The novelty is that the filter is made of at least one perforated strip, which simplifies the manufacture.

The novelty is due to the fact that pockets of a curvilinear shape with centers of curvature located inside the filter are formed along a broken helix, with the help of which portions of the material are captured, raised up and rushed down, which extends technological capabilities, increases the intensity of mixing and intensifies the process of separating the liquid phase from materials .

The novelty is due to the fact that helical lines of one direction are formed on the inner surface of the filter, which expands technological capabilities and increases the speed of longitudinal movement of the material.

The novelty of the proposal also lies in the fact that along the entire perimeter of the perforated surface of the filter, the passage section varies not only in shape but also in area, which provides alternate compression and expansion of materials in each filter section, which increases productivity and expands technological capabilities.

The novelty lies in the fact that with the same drum diameters of a known design and the proposed drum design, due to the presence of curved pockets in the form of semicircles, the particles of the material rise significantly above the angle of repose, which expands technological capabilities and increases productivity.

The novelty lies in the fact that due to the curved inner screw perforated surfaces, the vectors of the material velocity during transportation from loading to unloading change, which contributes to the intensification of the process of separation of the liquid phase from the material and expands technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows a General view of a device for separating a liquid phase from materials; figure 2 is a section aa in figure 1; figure 3 - filter, General view; figure 4 is a section bb in figure 3; figure 5 - perforated strip with marked bending lines in the form of straight lines for the filter of figure 3; 6 is a perforated strip, bent in straight lines with the formation of pockets of a curved shape; 7 is a perspective view of a perforated strip folded into a cylindrical coil.

Installation for separating the liquid phase from materials contains a frame 1, made in the form of a welded frame. A drive is mounted on the bed, consisting of an electric motor 2, a chain drive 3 and four roller bearings 4, on which two circular shells 5 and 6 are mounted, in which the outer drum 7 is fixed, with the filter 8 coaxially mounted in it. The outer drum 7 is made in the form a cylinder, inside of which screw guides 9 - are fixed (screw inserts), and is provided with perimeter holes 10 for draining the liquid phase from the filter. A section of the outer drum 7 with holes 10 is mounted in the housing 11, which in its lower part is provided with a window 12 - (pipe for draining the filtrate). On the bed 1, a loading device is mounted in the form of a funnel 13 - (inlet pipe). The installation is equipped with a conveyor 14 for receiving the solid phase of the material - (pipe for removal of the condensed fraction) and a capacity of 15 for receiving the liquid phase of the materials.

The filter 8 (Fig. 3, Fig. 4) is made around the perimeter in the form of a multiple screw perforated surface with helical lines around the perimeter and helical grooves inside the filter 8 in the form of curved pockets at an angle of 5 ° -30 ° to the axis of rotation of the filter 8 with centers the curvature of the pockets of a curved shape of a screw perforated surface located inside the cross section of the filter. The filter 8 (FIG. 3, FIG. 4) is made of at least one perforated strip 16 connected along the longitudinal edges 17 (shown in FIG. 3 by a dash-dot line) by known methods, for example, by welding, with the formation of helical lines along the outer and inner surfaces (part of one of the helical lines in figure 3 is shown by a thickened line 18-19-20-21-22-23-24-25-25-26-27) and screw surfaces (figure 4) are curved in the form of pockets of the inner surface of a semicircular shape 28, 29, 30, 31, 32, 33.

The perforated strip 16 (FIG. 5, FIG. 6) is bent along straight lines 34 at equal angles β to the edges 17 of the strip 16, spaced from each other at distances equal to the scan length of the perimeter of curved pockets, for example, for pockets 28, 29, 30 , 31, 32, 33 at distances L.

Perforated strip 16 after bending (Fig.6) is rolled into cylindrical coils (Fig.7), connected to each other along the longitudinal edges 17 by known methods, for example by welding in a perforated filter 8.

A device for separating the liquid phase from materials works as follows.

Material 8 is continuously loaded into the filter 8 through the loading device 13. When the filter 8 is rotated, particles of materials are captured by the pockets with an internal screw perforated surface and in the direction of rotation rise up and move to the discharge side. Upon reaching a certain height under the influence of gravitational forces and the angle of repose formed, the particles of materials move towards each other at certain angles and to the walls of the rotating filter 8 and move towards the discharge side. In this case, due to the pockets of a curved shape, the particles of materials rise significantly higher than in filters of known design. Since the surface of the filter 8 in the form of helical curved pockets is continuous, the process of movement of subsequent portions of materials that rise up and fall down, is moving at different angles. Since the inner surface of the filter 8 is equipped with helical lines, in each portion the particles of materials move along their direction vector towards the discharge side, which greatly intensifies the process of mixing and separation of the liquid phase from the materials and expands technological capabilities. Therefore, in the filter 8, the range of changes in the resulting motion vectors of particles of materials is significantly expanded and each particle moves in different direction vectors, which provides a greater probability of separation of the liquid phase from the materials. At the same time, they have a certain supply of kinetic energy and move with high kinetic energy, which is provided by perforated pockets of a curved shape on the inner surface. As a result, the process of separating the liquid phase from materials is intensified, the reliability of work is increased, and technological capabilities are expanded.

In other words, when moving materials inside the filter 8, the liquid phase through its perforated holes is discharged into the cavity of the outer drum 7, where screw guides 9 are transported to the holes 10. Through the holes 10, the liquid phase is discharged from the cavity of the outer drum 7 into the cavity of the housing 11 and through the window 12 enters the container 15. The solid phase of the materials is discharged through the outlet of the filter 8 to the conveyor 14. Since the pockets of the inner perforated screening surface of the filter 8 are at an angle to the axis of rotation particles, in each portion the particles of materials move along their direction vector towards the discharge side, which greatly intensifies the process of mixing, breaking them into small fractions and grinding the particles of material with each other and with the perforated walls of the filter 8, the intensity of mixing of particles of materials increases separation of the liquid phase from materials and expanding technological capabilities. Since screw perforated surfaces are formed inside the filter 8 in the form of perforated pockets of curvilinear shape, the range of changes in the resulting motion vectors of material particles is significantly expanded and each particle moves in different direction vectors, which provides a greater chance of collisions at the initial moment of separation of these particles from the perforated filter walls 8, where they have a certain supply of kinetic energy and move with high kinetic energy, therefore, it is ensured and Process intensification liquid phase separation of the materials. This ensures not only intensive separation of the liquid phase from the materials, but also ensures self-cleaning of the filter screen surface.

The presence in the filter design of 8 screw perforated surfaces in the form of broken perforated pockets of curved shape 28, 29, 30, 31, 32, 33 intensifies the process of isolating the liquid phase from materials, increases the reliability of the installation and extends technological capabilities, provides self-cleaning of the screening surface of the filter 8.

Thus, the particles of masses of materials during continuous rotation of the filter 8 make a complex movement, during which the process of separation of the liquid phase from the materials takes place. Particles of mass of materials not only intensively interact with each other, but also under the influence of one perpendicular screw surface in the form of curved-shaped pockets along the inner surface directed to one side at an angle to the longitudinal axis of the filter, make a complex movement with a large amplitude in a plane perpendicular to the filter cross-section 8. Since the cross-sectional dimensions, shape and location vary along the length of the filter 8, the disturbance of the movement of particles of the material is aggravated, i.e. there is an increase in the intensity of separation of the liquid phase from the materials. The presence of screw perforated surfaces and helix lines around the perimeter of the filter 8 contributes not only to complicate the paths of their movement, but also to move along the passage section of the filter 8. When masses of material move along the passage section of the filter 8, the liquid phase passes through the screening surface of the filter 8 into the cavity of the drum 7 and by means of screw guides 9 - (screw inserts), through holes 10 it is discharged by means of a nozzle for draining the filtrate 12 into a container 15 for receiving the liquid phase of materials, and the condensed fraction is removed camping on a conveyor 14 for receiving the solid phase material - (nozzle for discharging the thickened fraction).

Technical and economic advantages arise due to the expansion of the range of changes in the resulting vectors of displacement of particles of materials, the increase in the intensity of their mixing and reorientation, as well as the speed of their movements from loading to unloading, which increases the intensity of mixing, increases the energy consumption of the interaction of particles of materials with each other and with the filter walls 8, improves productivity, expands technological capabilities, improves reliability and its performance.

Claims (1)

A device for separating the liquid phase from materials, including an outer drum, inside which a screw insert, a filter, an inlet pipe, nozzles for draining the filtrate and condensed fraction are fixed, characterized in that the filter is made around the perimeter in the form of a multi-screw perforated surface with helical lines around the perimeter and screw grooves inside the filter at an angle of 5-30 ° to the axis of rotation of the filter in the form of pockets of curved shape with centers of curvature of the pockets of curved shape perforated screw surface a tee located inside the cross-section of the filter is mounted from one rolled into cylindrical coils, connected to each other along the longitudinal edges, of a perforated strip of the same width, bent along the bending lines placed at an angle to its longitudinal edges, with the formation of the outer and inner perforated surfaces, directed to one side at an angle of 5-30 ° to the axis of rotation of the filter of helical lines and helical perforated surfaces in the form of pockets of a curved shape, which around the perimeter of the filter 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 perimeters of the geometric shapes of the pockets of the inner perforated surface.

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