RU2726419C1 - Seed separation device - Google Patents

Abstract

FIELD: food industry.SUBSTANCE: invention relates to food industry and may be used in canneries when extracting seeds from vegetable raw materials. Proposed device comprises casing, hollow perforated rotor fitted therein and provided with possibility of rotation, raw material feeder and raw material feed assembly. Perforated rotor has conical surface along perimeter in the form of alternating perforated ledges of trapezoidal shape and perforated triangles of triangular shape and with flat perforated end walls of elliptical shape. End walls are parallel to each other and are inclined at an acute angle to the horizontal axis of rotation of the perforated rotor and form alternating perforated ledges of trapezoidal shape and perforated recesses of triangular shape. Large ellipse axes of end perforated walls of elliptical shape with alternating perforated projections of trapezoidal shape and perforated triangular cavities perimeter are turned relative to each other at acute angle. Along the entire length of the perforated rotor there is a cone spring of elliptic shape fixed in cross section and square cross-section of turns. Along the entire length of the device for separation of seeds from loading to unloading is fixed a spring of cylindrical shape with square cross section of turns, which are equipped with devices for change of pitch of turns by their extension or compression. Housing of device is equipped with unloading device for seeds and together with perforated rotor is fixed on frame elastically mounted on bed.EFFECT: use of the invention will make it possible to expand technological capabilities and increase efficiency of separation of seeds.1 cl, 5 dwg

Description

The invention relates to the food industry and can be used in the canning industry.

Known machine for the selection of seeds (RF patent No. 2551164, class A23N 4/12, publ. 27.11.1012, bul. No. 33), containing a housing provided with a screw guide and mounted in it a hollow perforated rotor, made in the form of a multi-thread perforated surface, made of one or more perforated belts of the same width, bent into cylindrical turns and connected along the longitudinal edges to form along the outer and inner surfaces of the rotor, directed in one direction at an angle of 10 ° -70 ° to its longitudinal axis of curved pockets, while the pockets along the perimeter have different shapes and sizes, and the distance between the bending lines of the belts is equal to the sum of the lengths of the perimeters of the geometric shapes of the pockets of the inner and outer surfaces of the rotor, which is rotatably mounted, equipped with a receiving device made in the form of a hollow perforated conical jacket, a water supply unit, a loading and unloading device.

The disadvantage is the complexity of manufacturing, limited technological capabilities and insufficient efficiency of separation of seeds.

Known installation for the extraction of seeds (RF patent No. 2629981, class A23N 4/12, publ. 09/05/2017, bul. No. 25), containing a housing and mounted in it a hollow perforated rotor mounted with the possibility of rotation, equipped with a loading device for raw materials, the water supply unit, the unloading device, the perforated rotor along the perimeter is made conical, the axis of which makes an acute angle with the axis of rotation, and the end cheeks of the perforated rotor are made perforated elliptical, and the large diameters of the ellipses of the end cheeks are rotated along the axis of the conical surface relative to each other at an angle 0 ° -360 ° and are mounted at an acute angle of 10 ° -90 ° not only to one another, but also at different angles to the axis of rotation of the perforated rotor, while a cylindrical spring with a flat section of turns and with a direction is mounted along the entire length of the perforated rotor turns coinciding with the direction of rotation of the perforated rotor, equipped with a device for changing I the pitch of the turns by stretching or compressing it, and the body is equipped with a seed unloading device and, together with a perforated rotor, is fixed on a frame resiliently mounted on the bed.

The disadvantages are limited technological

opportunities and insufficient efficiency of separation of seeds.

Closest to the proposed invention is a device for separating seeds (RF patent No. 2681829, class A23N 4/12, publ. 03/12/2019, bul. No. 8), containing a housing, mounted in it a hollow perforated rotor, installed with the possibility of rotation, a loading device for raw materials and a raw material supply unit, a perforated rotor is made in the form of a polyhedral perforated pyramid installed at an acute angle α relative to the horizontal axis of rotation with flat perforated edges along its perimeter and with flat end perforated polygonal walls placed at various angles β and ψ to the axis rotation of the perforated pyramid and to each other at an angle φ, while the longest axes of the end perforated walls of the polygonal shape coincide or can be rotated along the axis of rotation of the perforated rotor relative to each other at an angle ω, and along the entire length of the perforated rotor, along its axis of rotation, mounted cylindrical spring with round section coils, which is equipped with a device for changing the pitch of the coils by stretching or compressing, and the body is equipped with a unloading device for seeds and, together with a perforated rotor, is fixed to a frame resiliently mounted on the bed.

The disadvantages are limited technological capabilities and insufficient efficiency of seed separation.

The technical solution to the problem is to expand technological capabilities and increase the efficiency of seed separation.

The technical solution is achieved by the fact that in the device for the extraction of seeds, containing a housing, mounted in it a hollow perforated rotor mounted with the possibility of rotation, a loading device for raw materials and a raw material supply unit, the perforated rotor is made with a conical surface around the perimeter in the form of alternating perforated protrusions of a trapezoidal shape and perforated depressions of a triangular shape and with flat perforated end walls of an elliptical shape, parallel to each other, located obliquely at an acute angle to the horizontal axis of rotation of the perforated rotor and with generators, in the form of alternating perforated protrusions of a trapezoidal shape and perforated depressions of a triangular shape, while large ellipses of the end perforated walls of an elliptical shape with alternating perforated protrusions of a trapezoidal shape and perforated depressions of a triangular shape along the perimeter are rotated relative to each other at an acute angle, while n about the entire length of the perforated rotor, a conical spring of elliptical shape in cross-section and with a square section of turns is fixed, and along the entire length of the device for separating seeds from loading to unloading, a cylindrical spring with a square section of turns is fixed, which are equipped with devices for changing the pitch of the turns by stretching them or compression, and the housing is equipped with a unloading device for seeds and, together with a perforated rotor, is fixed to a frame resiliently mounted on the bed.

According to the data of the patent-technical literature, no technical solution similar to the claimed one was found, which makes it possible to judge the inventive level of the proposed device for the extraction of seeds.

The novelty lies in the fact that the perforated rotor is made along the perimeter in the form of alternating trapezoidal protrusions and triangular cavities, which increases productivity and expands technological capabilities, including by giving the trapezoidal protrusions and triangular cavities additional lateral movement of the raw material particles inside perforated rotor.

The novelty of the proposed invention lies in the fact that surfaces with alternating trapezoidal projections and triangular depressions along the perimeter give additional motion to the particles of the raw material inside the perforated rotor with a large amplitude, but with a low frequency, as well as the superposition of vibrations with low amplitude and high frequency on these movements created due to the imbalance of the perforated rotor, but also additional movements of the raw material particles obtained by the masses when meeting with the coils fixed along the length of the perforated rotor of a conical spring of elliptical shape in cross-section with a rectangular cross-section of coils and when meeting with coils fixed along the entire length of the device for separating seeds from loading to unloading springs of a cylindrical shape with a rectangular section of coils, which increases productivity and expands technological capabilities.

The novelty of the proposed invention lies in the fact that such a structural design of a perforated rotor and its implementation around the perimeter with a surface in the form of alternating trapezoidal protrusions and triangular depressions and flat elliptical end walls parallel to each other, placed obliquely at an acute angle to the horizontal axis of rotation of the perforated rotor, with generators in the form of alternating trapezoidal protrusions and triangular cavities, while the large axes of the ellipses of the end walls of an elliptical shape with alternating trapezoidal protrusions and triangular cavities around the perimeter are rotated relative to each other at an acute angle and along the entire length of the perforated rotor is fixed conical an elliptical spring in cross-section with a rectangular section of turns, and along the entire length of the device for separating seeds from loading to unloading, a cylindrical spring with a rectangular section of turns is fixed, which is It disrupts the speed and direction of movement of particles of raw materials, increases productivity, expands technological capabilities.

The novelty lies in the fact that the centers of symmetry of the inner surface of the perforated rotor, in each of its cross-sectional elements, are displaced relative to the axis of rotation of the perforated rotor, which disrupts the speed and direction of movement of raw material particles, expands technological capabilities, and increases productivity.

The novelty also lies in the fact that due to the imbalance of the mass of the load and the mass of the perforated rotor itself, which generates and gives the particles of the raw material high-frequency vibrations with a small amplitude, which are superimposed on the low-frequency vibrations of the particles of the raw material moving inside the perforated rotor with a large amplitude and low frequency. Such a joint effect of vibrations of different frequency and amplitude increases productivity and expands technological capabilities.

The novelty lies in the fact that the combined effect of the rotational movement of the perforated rotor and particles of raw material moving inside it with low-frequency oscillations with a large amplitude and the combination with these movements of the oscillations of the frame with the perforated rotor fixed on it, as well as high-frequency oscillations with a small amplitude, created due to imbalance the perforated rotor imparts complex spatial motion to the particles of raw materials, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that the working body is fixed along the entire length inside the perforated rotor, in the form of an elliptical conical spring with a rectangular section of turns, which disrupts the speed and direction of movement of raw material particles when they meet the turns of this spring, which increases productivity and expands technological opportunities.

The novelty also lies in the fact that along the entire length of the device for separating seeds inside the sleeve on the loading side, the perforated rotor and the sleeve on the unloading side, the working body is fixed in the form of a cylindrical spring with a rectangular section of turns, which disturbs the speed and direction of movement of the loading masses when they meeting the coils of this spring, which increases productivity and expands technological capabilities.

The novelty of the proposal also lies in the fact that a conical spring of elliptical shape with a rectangular section of turns is mounted along the entire length of the perforated rotor, which, under the influence of vibrations of the frame and the perforated rotor itself, makes an oscillatory motion, ensures not only the movement of raw material particles in the radial direction, but also contributes to the intensification the process of seed extraction, while the particles of raw materials, making a circular movement inside the perforated rotor, in planes perpendicular to its axis of symmetry, meeting with the coils of an oscillating conical spring of elliptical shape, change their trajectory and move not only to the periphery of the perforated rotor, but also in side of the unloading chute, increase processing productivity, expand technological capabilities.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a device for separating seeds, longitudinal section; in fig. 2 - section a-a in Fig. 1; in fig. 3 - perforated rotor; general form; in fig. 4 - section b-b in Fig. 3; in fig. 5 is a pictorial representation of a perforated rotor.

The device for the extraction of seeds contains (Fig. 1, Fig. 2) a housing 1 and a hollow perforated rotor 2 mounted therein, mounted with the possibility of rotation (the drive is not shown in the drawing), equipped with a loading device for raw materials (a loading funnel) 3, a water supply unit comprising a collector 4 and a branch pipe 5. The housing 1 is equipped with a seed unloading device 6 and, together with a perforated rotor 2, is fixed on a frame 7, resiliently mounted on a frame 8 by means of four elastic elements 9. The seed extraction device contains (Fig. 1, Fig. 2) also an unloading chute 10 for receiving destroyed fruits and an unloading chute 11 for receiving seeds, as well as a pallet 12 for collecting fibers and water. The unloading device for seeds 6 includes a perforated bottom 13 of the body 1. The body 1 itself consists of the body 1 itself and the cover 14, rigidly fastened to each other. On the side of the unloading of seeds in the housing 1 above the perforated bottom 13, a rectangular opening 15 is made for withdrawing seeds outside the housing 1 of the device for separating seeds. The perforated rotor 2 is rotatably mounted on supports 16 and 17, which are fixed to the frame 7. FIG. 1 shows the location of the end wall 18 of the perforated rotor 2 at the support 17 and the end wall 19 of the perforated rotor 2 at the support 16, which are rotated relative to each other at an angle β. The perforated rotor 2 is equipped with a loading sleeve 20 and an unloading sleeve 21 with support rings 22 and 23.

The perforated rotor 2 (Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5) is made with a conical surface along the perimeter in the form of alternating protrusions 24 of a trapezoidal shape and depressions 25 of a triangular shape and flat end walls 18 and 19 of an elliptical shapes parallel to each other, placed obliquely at an acute angle a to the horizontal axis of rotation of the perforated rotor 2, with generators in the form of alternating protrusions 24 of a trapezoidal shape and depressions 25 of a triangular shape, while the large axes of the ellipses of the end walls 18 and 19 are elliptical in shape with alternating protrusions 24 of a trapezoidal shape and depressions 25 of a triangular shape along the perimeter are rotated relative to each other by an acute angle β (Fig. 5), i.e. the major axis CD of the end wall 18 is rotated relative to the major axis AB of the end wall 19 by an acute angle β.

Along the entire length of the perforated rotor 2, a conical spring 26 of an elliptical shape is fixed in cross-section with a rectangular section of turns, and along the entire length of the device for separating seeds from loading to unloading, a spring 27 of a cylindrical shape with a rectangular section of turns is fixed.

Installation for the selection of seeds works as follows.

Particles of raw materials - crushed melons, for example pumpkin, enter through the loading funnel 3 and the loading sleeve 20 into the rotating perforated rotor 2, where they move along various elliptical trajectories, the dimensions of which vary along the length of the perforated rotor 2 in each cross section (Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5), while the centers of symmetry of the inner surface of the perforated rotor 2, in each of its cross-sectional elements, are displaced relative to the axis of rotation of the perforated rotor 2, which violates not only the speed and direction of movement particles of the raw material, but also contributes to the creation of eccentricity and the particles of the raw material are communicated with low-frequency oscillations with a large amplitude. This is facilitated by trapezoidal pockets 24 along the inner perimeter of the perforated rotor 2, which capture portions of raw material particles when the perforated rotor 2 rotates, rise above the angle of repose and are thrown onto opposite walls of the perforated rotor 2 towards the rotating pockets 24 and triangular projections 25 along the perimeter of the perforated rotor 2, thus increasing the frequency and energy intensity of the interaction of the particles of raw materials, which increases productivity and expands technological capabilities.

At the same time, due to the unbalance of the perforated rotor 2 and the particles of raw materials placed inside it, the frame 7, which is elastically installed on the frame 8, high-frequency vibrations with a small amplitude are created.

Therefore, the combined effect of high-frequency vibrations with a small amplitude and low-frequency vibrations with a large amplitude on the particles of the raw material, as well as the violation of the speed and direction of movement of the particles of the raw material when they meet the coils of two springs 26 and 27, increases productivity and expands technological capabilities.

As a result, the flow of moving raw material particles is not stationary, and the size and location of the active movement of raw material flows noticeably change during one revolution of the perforated rotor 2. Therefore, as a result of disturbance in the ordering of the process of movement of particles of raw material flows, their movement becomes more active, the zone of inactivity is eliminated, and the energy intensity of the collisions of the particles of raw materials with each other and with the walls of the perforated rotor 2, as well as with the end perforated walls 18 and 19, which ensures the cleaning of their perforated surfaces and increases the efficiency of fruit destruction and the separation of seeds. The process of non-stationarity of movement of the particles of raw materials is aggravated by the location of the end perforated walls 18 and 19, which significantly changes the direction of movement of the particles of the raw material along the axis of rotation of the perforated rotor 2 and creates zones of different pressure of the end perforated walls 18 and 19 on the particles of the raw material and intensifies the process of their destruction and separation of seeds ... Therefore, the particles of the raw material have the opportunity, under the influence of the pressure difference between the end perforated walls of the elliptical shape 18 and 19, located at an angle a to the axis of rotation of the perforated rotor 2, not only move along complex trajectories, but also move in the axial direction, thereby creating turbulent flows. As a result of such an intensification of the movement of flows, the particles of raw materials are destroyed, the seeds, together with water and fibers, are taken out of the perforated surface of the perforated rotor 2, flow down the walls of the housing 1 and fall on the perforated bottom 13 of the housing 1. Water and fruit fibers through the holes of the perforated bottom 13 are discharged into a pallet 12 for collecting fibers and water, and the seeds, through the opening 15 and the unloading device 6, are removed outside the housing 1 into the unloading chute 11 for receiving seeds. The destroyed fruits, by means of the sleeve 21 and the spring 27, are taken out of the housing 1 and the perforated rotor 2 into the unloading chute 10 for receiving the destroyed fruits.

The process of movement of particles of raw materials that rise up and fall down is continuous. Since the inner perforated walls of the perforated rotor 2 are located at an angle to its axis of rotation, then in each portion of the raw material, each particle of the raw material moves along its direction vector in the direction of unloading, which greatly intensifies the process of fruit destruction and seed extraction, expands technological capabilities. The process of destruction of fruits and the release of seeds is also intensified by a conical spring 26 mounted inside the perforated rotor 2 with a rectangular section of turns and with the direction of the turns coinciding with the direction of rotation of the perforated rotor 2, which provides additional longitudinal movement of the raw material particles inside the perforated rotor 2.

At the same time, the structural design of the perforated rotor 2, together with the loaded particles of raw material, creates an unbalance in the rotating perforated rotor 2, which gives it and the housing 1 low-frequency vibrations, which not only intensify the process of crushing the raw material and the extraction of seeds, but also ensure the reliability of the movement of seeds along the bottom 13 of the housing 1 and their output outside the device. Thus, the particles of the raw material make a complex spatial motion in the vertical plane - along elliptical trajectories, since the perforated rotor 2 is made with a surface around the perimeter in the form of alternating trapezoidal projections 24 and triangular depressions 25 and flat end walls of elliptical shapes 18 and 19 parallel to each other placed obliquely at an acute angle a to the horizontal axis of rotation of the perforated rotor 2 with generators in the form of alternating trapezoidal projections 24 and triangular cavities 25, while the large axes of the ellipses of the end walls 18 and 19 are elliptical AB and CD with alternating trapezoidal projections 24 and depressions of a triangular shape along the perimeter are rotated relative to each other at an acute angle β, and in the horizontal plane - reciprocating with the imposition of low-frequency oscillations on these movements, excited by the asymmetric position of the perforated rotor 2 and the simultaneous impact on them x vibrations in three mutually perpendicular directions, as well as alternating trapezoidal protrusions 24 and triangular cavities 25 along the perimeter of the perforated rotor 2. As a result, the flow of moving particles of raw materials is not stationary, and the size and location of their active mixing noticeably change during one revolution of the perforated rotor 2. As a result of disturbance in the ordering of the process of movement of the load masses, their movement becomes more active, zones of inactivity are eliminated, the energy intensity of collisions of flows of particles of raw materials between themselves and with the walls of the perforated rotor 2, as well as end walls 18 and 19 and coils of springs 26 and 27, increases, which provides an increase in processing productivity and expansion of technological capabilities. The process of non-stationarity of the movement of raw material particles is aggravated by the location of the end walls 18 and 19, the large axes of the ellipses AB and CD of which are rotated relative to each other by an acute angle β, which significantly changes the direction of movement of the raw material particles along the axis of rotation of the perforated rotor 2 and creates zones of different pressure of the end walls 18 and 19 for raw material particles. Therefore, the particles of the raw material are able, under the influence of the geometric slope of the perforated rotor 2 and the pressure difference of the end walls of the elliptical shape 18 and 19 to each other and to the axis of rotation of the perforated rotor 2, not only to move along complex trajectories, but also to move in the axial direction. The complication of the trajectories of the raw material particles, as well as their movement from loading to unloading, is facilitated by the coils of the cone-shaped spring 26 and the coils of the coil spring 27, as well as the trapezoidal pockets 24 along the inner perimeter of the perforated rotor 2, which capture portions of the raw material particles when the perforated rotor 2 rotates, are raised above the angle of repose and thrown onto the opposite walls of the perforated rotor 2, towards the rotating pockets along the perimeter of the rotating rotor 2, thus increasing the frequency and energy intensity of the interaction of raw material particles, which increases productivity and expands technological capabilities.

The speed of movement of particles of raw materials from loading to unloading can be adjusted by changing the angle of inclination of the entire device for separating seeds.

The advantages are provided due to the fact that the perforated rotor along the inner perimeter is equipped with trapezoidal pockets and triangular depressions, while the flat end walls of the elliptical shape are parallel to each other, placed obliquely at an acute angle to the horizontal axis of rotation of the perforated rotor 2, rotated relative to each other on an acute angle and are provided along the perimeter with generators in the form of alternating trapezoidal protrusions corresponding to the shape and dimensions of alternating protrusions of the outer perimeter of the surface of the perforated rotor, and also due to the fact that a conical spring of elliptical shape in cross section is fixed along the entire length of the perforated rotor, with a rectangular section of turns, and along the entire length of the device for separating seeds from loading to unloading, a cylindrical spring with a rectangular section of turns is fixed, which allows increasing productivity, expanding technological capabilities due to simultaneous the impact on the particles of raw materials of high-frequency vibrations with a small amplitude and low-frequency vibrations with a large amplitude, as well as disturbances in the speed and direction of movement of the particles of the raw material when they meet with trapezoidal pockets.

Claims (1)

A device for the extraction of seeds, including a housing, a hollow perforated rotor mounted in it, installed with the possibility of rotation, a loading device for raw materials and a raw material supply unit, characterized in that the perforated rotor is made with a conical surface around the perimeter in the form of alternating perforated trapezoidal projections and perforated depressions triangular in shape, as well as with flat perforated end walls of an elliptical shape, with the end walls parallel to each other and placed obliquely at an acute angle to the horizontal axis of rotation of the perforated rotor with the formation of alternating perforated trapezoidal protrusions and perforated triangular depressions, with the large axes of the ellipses of the end perforated walls with alternating perforated trapezoidal projections and perforated triangular depressions around the perimeter are turned relative to each other at an acute angle, in addition, along the entire length of the perforations The rotor is equipped with a conical spring of elliptical shape in cross section and with a square section of turns, and along the entire length of the device for separating seeds from loading to unloading a spring of cylindrical shape with a square section of turns is fixed, which are equipped with a device for changing the pitch of the turns by stretching or compressing them, the housing is equipped with a seed unloading device and, together with a perforated rotor, is fixed to a frame resiliently mounted on the bed.

Images