RU2566991C1 - Device for continuous preparation of feed - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device comprises a frame, a drum mounted on it with the ability of rotation. The drum is mounted of sections assembled from two identical subsections made of an even number (at least four) of identical isosceles triangles alternately connected along the perimeter of the subsection with four identical equilateral triangles, forming the large and small end openings in the form of polygons. Two subsections are connected to each other into the section by the parts of the end large openings. The sections are connected to each other along the length of the drum with the sides of the small end openings to form a multi-start screw surface with the broken helical lines directed towards each other. The loading and unloading means are designed as sleeves, outside which the flanged discs are mounted, having openings for rigid attachment to the flange discs, which are mounted and rigidly fixed on both sides of the drum on its end openings. The inner surfaces of the sleeves at an angle α, equal to the angle of inclination of helical lines to their axis of rotation and to the longitudinal generatrices of the sleeves, are attached to the curved helical inserts in the form of curved plates folded not only in width, a radius equal to half the diameter of the sleeve, but also twisted in length along the helical lines with a pitch equal to the pitch of helical lines of the drum. The length of the helical inserts in the loading means is two times greater than the sleeve length and they protrude beyond the ends of the sleeves on both sides. In the unloading means the helical inserts protrude beyond the sleeve just to the side of the drum and enter in the internal cavity. Inside the drum along its length the wave-shaped spring is mounted, which is provided with a device for changing the coil pitch. The drum, the loading hopper, the unloading pins and the drive are mounted on the frame suspended by the rubber-cord pneumocylinders to the frame.

EFFECT: use of the invention enables to increase the quality of feeds obtained.

14 dwg

Description

The invention relates to devices for the preparation of concentrated, coarse, juicy and watery feeds.

Known drum feed mixer and.with. No. 1666173, cl. A23N 17/00, 1987, comprising a drum with helical surfaces, consisting of sections, each of which is made of identical plates, having the shape of equilateral triangles, interconnected by two sides on the surface of the drum and placed at an angle to each other and to its axis, while the sections are interconnected by the free sides of the plates and form multidirectional screw surfaces of equal pitch, and the number of plates in the section is even and at least six.

A disadvantage of the known device is the insufficient intensity of mixing the feed components due to some stationarity of the movement of feed flows in a multi-helical drum with the screw surfaces directed at the same pitch and with the same number of strokes, as well as the insufficient mixing intensity in the drum, assembled from the same area, dimensions and configuration of elements in the form of equilateral triangles, forming in the cross section coaxial with the axis of rotation of the drum flat Polyhedra shapes.

Closest to the proposed invention is a device for the preparation of feed Patent No. 2028070, class. A23N 17/00, 1995, comprising a bed, a drum mounted on it with the possibility of a drum, consisting of sections made in the form of a straight triangular prism formed by a cross-section of the cube diagonally, moreover, the same edges of adjacent sections are connected at right angles.

A disadvantage of the known device is the limited technological capabilities due to the fact that the preparation of feed is carried out with an almost constant longitudinal and cross section of the drum from loading to unloading and insufficient productivity and insufficient intensity of interaction of the components of the feed with each other.

The technical solution to the problem is to increase productivity and expand technological capabilities by giving the feed components complex spatial movement and the simultaneous influence of vibrations on them in three mutually perpendicular directions, as well as compressing the feed component streams during their preparation.

The technical solution is achieved by the fact that in the device for the continuous preparation of feed containing a bed, a drum consisting of sections mounted on it with the possibility of rotation, the drum is mounted from sections assembled from two identical subsections made of an even number (at least four) of the same isosceles triangles alternately connected along the perimeter of the subsection with four identical equilateral triangles with the formation of small and large end holes in the form of polygons, while in Two subsections are connected to each other by the sides of the large end holes, and the sections are connected to each other along the length of the drum by their sides of the small end holes to form a multi-helical surface with broken helical lines directed towards each other, while loading and unloading devices made in the form bushings on the outside of which flange disks with holes are mounted for rigid mounting to flange disks mounted and rigidly fastened on both sides b curved at its end openings, and to the inner surface of the bushings at an angle α equal to the angle of inclination of the helical lines to the axis of rotation and to the longitudinal generatrices of the bushings, curved screw inserts are attached in the form of curved plates, rolled not only in width, in radius equal to half the diameter bushings, but also twisted along the length along the helical lines, with a step equal to the pitch of the helical lines of the drum, and the length of the screw inserts in the loading device is twice as long as the sleeve and they protrude beyond the ends of the bushings from two an oron for gripping the feed components from the loading means and uninterrupted, as well as their uniform transfer to the inside of the drum, and in the unloading device the screw inserts extend beyond the sleeve only towards the drum and enter its internal cavity for gripping and uninterrupted supply of finished feed into the unloading sleeve adaptations and transformations of the waterfall mode of movement of finished feed in the drum into a quiet laminar mode of movement in the sleeve of the unloading device, followed by the transfer of flows finished feed and their output outside the sleeve of the unloading device, while inside the entire length of the drum a wave-shaped spring is mounted, which is equipped with a device for changing the pitch of the turns, and the drum, loading hopper, unloading pins and drive are mounted on a frame suspended by rubber-cord pneumocylinders to bed.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the device for the continuous preparation of feed.

The novelty of the invention lies in the fact that such a design of the rotating drum allows for sequential compaction and discharge of the streams of feed components moving them from loading to unloading, which expands technological capabilities and increases productivity.

The novelty also lies in the fact that due to the multi-start screw surface around the perimeter of the drum with the broken broken helical lines of the rotating drum directed towards each other, its eccentricity relative to the axis of rotation increases, which ensures vibration excitation in three mutually perpendicular directions of the frame with a rotating drum suspended on cylinders which are transferred to the feed components moving from loading to unloading, which provides increased productivity during otovleniya feed and expanding technological capabilities.

The novelty also lies in the fact that, since the position of the cross section of the drum together with the feed components located in them changes relative to each other and the distance of these masses of the flows of feed components relative to the axis of rotation of the drum changes, there is an intensification of feed preparation.

The novelty lies in the fact that the drum, loading hopper, unloading pins and drive are mounted on a frame suspended by rubber-cord pneumocylinders to the bed, which enhances the influence of vibrations of the entire device on rubber-cord pneumocylinders on the process of preparing feeds and increases the efficiency of interaction of the drum walls with spring coils and particles feed components, expanding technological capabilities.

The novelty is also seen in the fact that the elements from which the rotating drum is assembled are different in area, size and configuration, therefore, the intensity of preparation of feed increases, since these elements, working as shelves, capture portions of feed different in volume and direct them towards each other friend, thus violating the stationary nature of their movement, increase their intensity of interaction, expand technological capabilities.

The novelty of the invention lies in the fact that due to the execution of the drum from sections, the elements of which, when mounting the drum, are mounted at certain angles not only to each other, but also to the axis of rotation, and therefore, working like shelves, capture portions of particles of feed components and direct they meet not only each other, but the opposite walls of the rotating drum. Therefore, the intensity of the preparation of feed increases, the technological capabilities of the device for continuous preparation of feed increase.

The novelty is due to the fact that, since the area, shape and size of the bore of the drum along its length varies from loading to unloading, first to increase and then decrease, the process of preparation of feed is intensified, not only the activity of the interaction of particles of the components of the feed with each other increases and with the walls of the drum, but the frequency of their interaction and the amplitude of motion relative to each other also change, as a result of which the technological capabilities of the device for continuous preparation of mov.

The novelty also lies in the fact that a wave-shaped spring is mounted inside the entire length of the drum, which not only ensures the movement of particles of the feed components from loading to unloading, but also compresses the feed flows inside the drum, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that a wave-shaped spring mounted inside the drum is equipped with a device for changing the pitch of the turns, which allows you to influence the nature of the movement of particles of the feed components inside the drum and provides control of the speed of their movement from loading to unloading.

The novelty of the invention lies in the fact that due to the design features of the loading device, not only the uninterrupted flow of feed components into the drum is ensured, productivity is increased, technological capabilities are expanded, but their uniform flow inside the drum is also ensured.

The novelty also lies in the fact that due to the design features of the unloading device, the chaotic movement of the finished feed from the waterfall mode is transferred to a quiet, laminar mode of movement in the unloading device, followed by the transfer of portions of the finished feed to the unloading means, which not only improves the working conditions of the staff , but also simplifies the maintenance of the device for the continuous preparation of feed, expands technological capabilities.

The novelty lies in the fact that screw inserts, rigidly fixed radially on the inner surface of the sleeve, are rolled up in width along a radius equal to half the diameter of the sleeve, and also rolled up in length along a radius equal to the pitch of the helical lines, which simplifies manufacturing and extends technological capabilities.

The novelty lies in the fact that the loading device is multi-start, which expands technological capabilities and ensures uninterrupted supply of particles of feed components into the drum.

The novelty also lies in the fact that the screw inserts are fixed at an angle to the axis of rotation of the drum, equal to the angle of inclination of the helical lines to the axis of rotation of the drum.

The novelty also lies in the fact that the screw inserts of the unloading device are rolled in width along a radius equal to half the diameter of the sleeve, and are twisted simultaneously along the length along helical lines, which expands technological capabilities.

The novelty of the proposal lies in the fact that such a design of the drum along the perimeter with helical lines and screw surfaces allows not only to provide longitudinal cascade movement of feed components along the entire length of the drum, but also to increase the productivity of feed preparation and expand technological capabilities.

The novelty is also due to the fact that the cross-sectional shape of the drum is a polygon, which along its length changes not only the shape and dimensions of the sides of the polygon, but also their location relative to the axis, giving the particles of feed components a waterfall mode of movement and contributing to increased productivity.

The novelty is also seen in the fact that the area and shape of the cross section of the drum along the length increases from loading to unloading due to the conditionally wave-like shape of the drum, which not only intensifies the preparation of feed, as it violates the stationarity of their movement, changing the amplitude of oscillations as they move, but also provides their movement in the axial direction, expands technological capabilities.

The novelty of the invention lies in the fact that, since the frequency of movement of particles of feed components in the proposed design is determined not only by the frequency of rotation of the drum, but also by the number of flat elements along its perimeter, such a design of the drum due to the increase in the number of flat elements in each section by for each revolution of the drum increases the frequency of collisions of particles of the components of the feed between themselves and with the walls of the drum, increases the productivity of cooking feeds, increase AET technological capabilities.

In addition, the novelty is due to the fact that the elements from which the drum is assembled are mounted at certain angles to each other, therefore the intensity of the interaction of the feed components increases, since these elements, working as shelves capture portions of particles of the feed components, direct them towards each other and on the walls moving on the opposite side of the drum, violating, thus, not only the stationarity of their movement, but also expand technological capabilities.

The novelty is seen in the fact that the area and shape of the cross section of the drum change in each cross section from loading to unloading, which intensifies the process of preparing feeds, increases the energy intensity of the interaction of particles of feed components with each other and with the walls of the drum, and expands technological capabilities.

The novelty also lies in the fact that the cross-sectional passage of the drum has the shape of a polygon, the area of which varies along the length of the drum from loading to unloading, providing periodic compression of the particle fluxes of the feed components, which increases the intensity of preparation and the energy intensity of the collisions, and expands technological capabilities.

The novelty is due to the fact that the drum is equipped with four, five, six, etc. screw broken lines of equal pitch, directed towards each other along the perimeter and, accordingly, four, five, six, etc. screw grooves inside the drum, also directed towards each other, which ensures the creation of directed towards each other flows of feed components with maximum energy intensity of particle collisions with each other and with the walls of the drum at different angles, increases the frequency of interaction of particles of feed components with each other and with the walls of the drum , increases the productivity of feed preparation and expands technological capabilities.

The novelty is seen in the fact that the area and shape of the cross and longitudinal sections of the drum change along the entire length from loading to unloading, which changes the speed and trajectory of the movement of particles of the feed components, expands the technological capabilities.

The novelty lies in the fact that due to the mutually directed broken helical lines, the vectors of the particle velocity of the components of the feed during transportation from load to unload change, which helps to intensify the process of preparation of feed and extends technological capabilities.

The novelty also lies in the fact that along the inner perimeter of the drum, broken helical surfaces are formed along its length, which ensures a violation of the stationarity of their flows inside the drum, an increase in the productivity of feed preparation, and the expansion of technological capabilities.

The novelty of the invention lies in the fact that such a design of the drum allows not only the expansion of technological capabilities, but also the compression of the components of the particles of the feed components as they move from loading to unloading and to increase the productivity of feed preparation.

The novelty of the invention lies in the fact that such a design of the drum allows for a consistent gradual compaction and discharge of the streams of particles of feed preparation and extends the technological capabilities of the device.

The novelty lies in the fact that due to the mutually directed broken helical lines, the vectors of the particle velocity of the components of the feed during transportation from load to unload change, which helps to intensify the process of preparation of feed and extends technological capabilities.

The novelty is due to the fact that the drum is made with the formation on the inner perimeter of four or more broken right and left helical lines directed towards each other, which ensures the creation of directed towards each other flows of particles of feed components with maximum energy intensity of their collisions with each other and with the walls of the drum under different angles, increases the frequency of their interaction with each other and with the walls of the drum, increases productivity and expands technological capabilities.

The invention is illustrated by drawings, where: in FIG. 1 shows a device for continuous preparation of feed, General view; in FIG. 2 is a section Α-A in FIG. one; in FIG. 3 - drum, front view; in FIG. 4 is a section BB in FIG. 3; in FIG. 5 is a view A in FIG. four; in FIG. 6 is a view B in FIG. 5; in FIG. 7 - one of the subsections, visual image; in FIG. 8 is a diagram of an assembly of a section of two subsections, a visual image; in FIG. 9 - loading device, front view, in section; in FIG. 10 is a section BB of FIG. 9; in FIG. 11 - curved screw insert boot device, visual image; in FIG. 12 - unloading device, front view, in section; in FIG. 13 is a section D-D in FIG. 12; in FIG. 14 - screw insert discharge device, a visual image.

A device for preparing feed consists (Fig. 1, Fig. 2) of a drum 1, loading device 2, unloading device 3 and a drive (not shown). The drum 1 is equipped with bushings 4 and 5 with flanges 6 and 7 rotatably in the bearings 8 and 9. The nose 10 of the loading device 2 enters the hole of the sleeve 4 of the drum 1. Loading device 2, bearing bearings 8 and 9 with the drum 1 mounted in them mounted on the frame 11. The frame 11 is suspended on four pneumocylinders 12, which are mounted on the bed 13. To increase the speed of the longitudinal movement of the feed components from loading to unloading, the feed preparation device is equipped with a device (not shown) for I give the inclination of the axis of rotation of the drum relative to the horizon, and also inside the drum 1 along its entire length a spring of a wave-like shape 14 is mounted, which is equipped with a device for changing the pitch of the turns (not shown in the drawing). The drum 1 is provided with flanges 15 and 16.

Since the entrance to the drum 1 has the shape of a polygon (Fig. 2) and has at least one face at the entrance to the end hole of the drum 1, the slope of which is opposite to the direction of movement of the particles of the feed components to be prepared, for each revolution of the drum 1 there is a return of this antidirectional the main direction of movement of the components of the feed face from the means for loading 2 into the inner cavity of the drum 1 portions of particles of the components of the feed from the drum 1 back into the means for loading 2, i.e. against moving streams of particles of the components of the feed from the means for loading 2 into the drum 1. As a result, the uninterrupted supply, dosage and reliability of the particles of the components of the feed inside the drum 1 are not ensured, which reduces productivity, reliability and technological capabilities. Therefore, after the boot means 2 to the end of the drum 1, more specifically to the flange 15 of the drum 1, a flange 8 is attached to the sleeve 4 with the boot device 17 fixed in it (Fig. 1).

A device for the continuous preparation of feed (Fig. 1) is equipped with a discharge device 18 mounted inside the sleeve 5 and thus attached to the output end hole of the drum 1 using the flanges 7 and 13.

Drum 1 (Fig. 3, Fig. 4, Fig. 5, Fig. 6) is mounted from sections 19 mounted from two identical subsections 20 and 21.

Subsections are made (for example, subsection 21) from an even number of at least four identical isosceles triangles, for example, in FIG. 7 four isosceles triangles 22, alternately connected along the perimeter of the subsection with four identical equilateral triangles, for example (Fig. 7) four identical equilateral triangles 23 to form a small end hole in the form of a polygon 24 and a large end hole in the form of a polygon 25. In section 19, the same subsections 20 and 21 are connected to each other (Fig. 8) by the sides of large end holes 25.

The same sections 19 are then connected to each other along the length of the drum 1 by their sides of the small end holes 24 to form a multi-start drum 1 with mutually directed broken helical lines.

For example, in FIG. 3, one of the right broken helical lines is shown by a thickened line 26-27-28-29-30-31-32 and one of the left broken helical lines is shown by a thickened line 33-34-35-36-37-38-39. In the drawing, the positions of the invisible points of broken lines are shown in brackets, for example, 30-31-32 and 37-38-39.

Broken helical lines form along the perimeter of the drum 1 broken helical surfaces consisting of faces in the form of equilateral 23 and isosceles triangles 22.

Helix lines on the outer surface of the drum 1 have the same. designation of positions with their corresponding grooves on the inner surface of the drum 1.

Since the subsections 20 and 21 have small end openings 24 and large end openings 25, sections 19 have variable longitudinal and variable passage sections along the length of the drum 1.

A device for continuous preparation of feed is equipped with a device for adjusting the slope (not shown in the drawing). The change in the angle of inclination is carried out in order to control the speed of movement of particles of the components of the feed from loading to unloading.

The loading device 17 (Fig. 9, Fig. 10) is mounted in the sleeve 4, on the outside of which the diameter of the sleeve has a flange disk 6 with holes for rigidly fastening the sleeve 4 to the flange 15 of the end hole of the drum 1 (Fig. 1). To the inner surface of the sleeve 4 at an angle α equal to the angle of inclination of the helical lines of the drum 1 (Fig. 9, Fig. 10), is attached to the longitudinal generators of the sleeve 4 of at least three screw inserts 40 in the form of curved rectangular plates 41 (Fig. 11) rolled along the width in radius equal to half the diameter of the sleeve, and simultaneously twisted along the length along the helical lines with a step equal to the pitch of the helical lines of the drum 1. These rectangular plates 41 are bent in width and length by known methods. The curved plate 41 (Fig. 11) is fixed rigidly, for example by welding, to the substrate 42 with holes for mounting the plates 41 at an angle α to the inner surface of the sleeve 4, so that the plates 41 protrude beyond the ends of the sleeve 4 (Fig. 1, Fig. 9) .

In the drum 1, the feed components move in a waterfall mode of motion, however, since the output of the drum 1 has the shape of a polygon, and there is at least one face at the exit of the drum 1, which is opposite to the flow of movement to the unloading means 18, they are scattered at the exit from the end face the holes of the drum 1, the unloading process is disrupted, the unloading of the device for continuous preparation of feed is not uninterrupted, technological capabilities are reduced. Therefore, the outlet of the drum 1 is provided with a flange 16, to which, using the flange 7, a discharge device 18 is attached (Fig. 12, Fig. 13) mounted in the sleeve 5 with the flange 7. To the inner surface of the sleeve 5 at an angle α equal to the angle of inclination of the screw the lines of the drum 1 (Fig. 12, Fig. 13) are attached to the longitudinal generators of the sleeve 5 of at least three screw inserts 43 in the form of curved plates 44 (Fig. 14) of rectangular shape, rolled up in width along a radius equal to half the diameter of the sleeve 5, and simultaneously twisted in length along helical lines with agom at a pitch helical lines drum 1. These rectangular plates 44 are bent along the width and length of the known methods. Curved plates 44 are fixed rigidly, for example by welding, to the substrate 45 with holes for fastening the screw inserts 43 at an angle α to the inner surface of the sleeve 5, so that the screw inserts 43 extend beyond the sleeve 5 from one side to the drum 1 and enter the inner cavity drum 1.

Thus, the drum 1 is filled with particles of feed components. When the drum rotates, the particles of the feed components make a complex spatial movement along helical lines with the movement of the masses of feed components along helical lines from loading to unloading. Due to the fact that the drum is mounted from different configurations of triangles and the drum itself is ribbed in the transverse direction with the formation of alternating faces along the perimeter of the drum 1, gradual discharge and compaction of the masses of particles of feed components is carried out, which increases productivity and expands technological capabilities. Moreover, since the drum, the loading hopper, the unloading pins and the drive are mounted on a frame suspended by rubber cord pneumocylinders to the bed, due to the fact that the moving masses of particles of the feed components in such a drum at each moment of movement are at different distances from the axis of rotation. vibrations are created that enhance the influence of the vibrations of the entire device on rubber-cord pneumocylinders on the process of preparing concentrated feed, which increases the efficiency of the interaction of the drum walls with the spring coils and particles of feed components, and expands technological capabilities.

A device for the continuous preparation of feed is as follows.

The feed components to be prepared are loaded into the drum 1 by means of the loading means 2 in a continuous stream. When the drum 1 rotates, the screw inserts 41 of the loading device 17 from the means for loading 2 capture portions of feed components and due to their rotation together with the sleeve 4 and due to their curvature in width and length, as well as the arrangement at an angle α to the axis of rotation, particles of feed components are transported first, along the inner surface of the cylindrical sleeve 4, and then transported, these particles of feed components are transferred inside the drum 1, thus bypassing a face whose inclination is opposite to the direction d izheniya feed components, which prevents thus for every revolution of the drum 1 returns this counterdirectionally edge portions of feed components from the drum 1 back to means for loading 2, i.e. against a moving mass flow of particles of feed component particles from the means for loading 2 into the drum 1. As a result, an uninterrupted supply, dosage and reliability of the feed of the feed component particles into the drum 1 is ensured, which increases productivity and expands technological capabilities. In the future, the feed components move along the entire length of the drum 1 along its helical lines of the main direction, while, since the triangles are located along the perimeter of the drum 1 along broken lines of the same direction and broken lines of the opposite direction and at different angles to each other and to the rotation axis, then the particles of the feed components are captured and moved by triangles during rotation of the drum 1 at different angles to each other, which intensifies the process of preparing the feed. Since along the length of the drum 1 the cross-sectional shape of the drum 1 is a polygon, which along the length of the drum 1 changes not only the shape and dimensions of the sides of the polygon, but also their location relative to the axis of rotation of the drum 1, the stationary movement of the particles of the feed components is violated, which contributes to the intensification of the cooking process feed. The presence of broken helical grooves inside the drum 1 with a different number of visits creates oncoming flows of particles of the feed components and reports the waterfall nature of the movement of these masses. Various angles of the lateral sides of the grooves of the inner cavity of the drum1 contribute to this. Thus, the particles of feed components are given a waterfall mode of movement, which increases productivity and expands technological capabilities.

Thus, the drum 1 is filled with feed components. When the drum 1 rotates, flat elements - equilateral triangles mounted around the perimeter of the drum 1 are differently inclined to the axis of rotation of the drum 1 and to each other, working as buckets (shelves), capture portions of feed components of various volumes, raise them in the direction of rotation of the drum 1 slightly higher angle of repose, and then send these portions of particles of the components of the feed in directions perpendicular to these shelves (buckets), at a certain angle not only to the axis of rotation of the drum 1, but also to other flows of particles of com onentov feed moving inside drum 1 at different angles and with different speeds. The length of the trajectory of movement (amplitude) of the particles of the components of the feed largely depends on the diameter of the drum 1, on the angles of inclination of the flat elements to each other and to the axis of rotation. The frequency of movement and collisions of particles of the components of the feed is determined not only by the frequency of rotation of the drum 1, but also by the number of flat elements around the perimeter of the drum 1. Therefore, the proposed design of the device for continuous preparation of feed provides an increase in frequency characteristics by a factor of tens, and technological capabilities are expanded. Since the shape and dimensions of the cross section having the shape of a polygon change many times along the length of the drum 1 from loading to unloading, multiple periodic compression of the particle feed streams of feeds is provided, which increases the intensity and energy intensity of the collisions and expands technological capabilities. Thus, when the drum 1 rotates, the particles of the feed components make a complex spatial movement along helical paths and the feed preparation process is carried out.

Technical and economic advantages arise due to an increase in the frequency of interaction of the particles of the components of the feed, not only with each other, but also with the walls of the rotating drum, which increases the productivity of the preparation of feeds, increases the energy consumption of the interaction of the particles of the components of the feed by giving the feed components a complex spatial movement and simultaneous effect on oscillations in three mutually perpendicular directions, as well as preloading the streams of feed components during their preparation I, as well as improving productivity by ensuring uninterrupted loading, unloading.

Claims (1)

A device for the continuous preparation of feed containing a bed, a rotary drum mounted on it, consisting of sections, characterized in that the drum is mounted from sections assembled from two identical subsections made of an even number of at least four identical isosceles triangles, alternately connected along the perimeter of the subsection with four equal equilateral triangles with the formation of small and large end holes in the form of polygons, while in the section there are two subsections with are connected to each other by the sides of the large end holes, and the sections are connected to each other along the length of the drum by their sides of the small end holes to form a multi-helical surface with broken helical lines directed towards each other, while the loading and unloading devices are made in the form of bushings, with the outer the sides of which are mounted flange disks with holes for hard mounting to the flange disks, which are mounted and rigidly attached on both sides of the drum to the end its holes, and to the inner surface of the bushings at an angle α equal to the angle of inclination of the helical lines to the axis of rotation and to the longitudinal generatrices of the bushings, curved screw inserts are attached in the form of curved plates rolled not only in width, in radius equal to half the diameter of the bush, but also twisted along the length along the helical lines, with a step equal to the pitch of the helical lines of the drum, and the length of the screw inserts in the loading device is twice as long as the sleeve and they protrude beyond the ends of the bushings on both sides to capture components of feed from the means for loading and uninterrupted, as well as their uniform transfer inside the drum, and in the unloading device the screw inserts extend beyond the sleeve only towards the drum and enter its internal cavity for gripping and uninterrupted supply of finished feed into the sleeve of the unloading device and conversion waterfall mode of movement of finished feed in the drum in a quiet laminar mode of movement in the sleeve of the unloading device, followed by the transfer of flows of finished feed and their output outside the sleeve of the unloading device, while inside the entire length of the drum, a wave-shaped spring is mounted, which is equipped with a device for changing the pitch of the turns, and the drum, loading hopper, unloading pins and drive are mounted on a frame suspended by rubber cord pneumocylinders to the bed.

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