RU2755279C1 - Machine for presowing processing of seed material - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to the field of agricultural engineering, in particular, to equipment for pre-sowing processing of seed material, and can be used for sowing preparation of small-seeded crops. The machine is comprised of a grinding drum installed elastically on a base with a vibrator, the inner surface whereof is covered with a layer of rubber, provided with an unloading window and a working element mounted therein in the form of a cylindrical spring covered with a layer of rubber and equipped with an apparatus for changing the pitch of coils by stretching or compressing thereof, a dosing hopper, an unloading tray. The grinding drum is made with intermittent zigzag broken helical surfaces and broken helical lines along the perimeter thereof, with a triangular transverse cross-section, and is mounted from sections, wherein each section is shaped as a rectangle, and two identical side trapezoids, the lower bases whereof are equal to the two lateral sides of the rectangle, the upper bases are equal to each other. The lateral sides of the trapezoids are equal to the other two sides of the rectangle, forming equilateral triangles at the ends of the sections, equally inclined in different directions to the axis of the section. Each subsequent section is rotated relative to the previous section by an angle corresponding to the rotation of the section to one side of the triangle, providing an inclination of the axes of the sections to each other and to the axis of rotation of the grinding drum based on the condition of intersection thereof. The cylindrical spring of the working element is made with a circular cross-section of the coils.

EFFECT: provides a possibility to expand the technological capabilities of the machine, increase productivity and facilitate manufacture thereof.

1 cl, 9 dwg

Description

The invention relates to the field of agricultural engineering, in particular, to equipment for pre-sowing processing of seed material, and can be used to prepare for sowing small-seeded crops.

A known machine for grinding Markovi seeds (RF patent No. 2521857, class MKI A01S 1/00, publ. 07/10/2014, bulletin No. 19), containing a working body, a grinding drum, the inner surface of which is covered with a layer of rubber with an unloading window, a drive mechanism , bunker-dispenser, unloading chute, while the grinding drum is helical around the perimeter, from sections in the form of polyhedrons, with faces in the form of equilateral triangles, connected by two of their sides along the surface of the drum and placed at an angle to each other and to its axis , with the formation on the outer surface of the oppositely directed broken helical surfaces of the same pitch and broken helical lines of the same pitch.

The disadvantages of the known machine are limited technological capabilities, insufficient productivity, and manufacturing complexity.

Closest to the proposed invention is a machine for grinding seeds (patent No. 2516336 MKI A01S 1/00, publ. 05/20/2014, bull. No. 14), containing a grinding drum, the inner surface of which is covered with a layer of rubber, with an unloading window, a working organ, metering hopper, unloading chute, while the grinding drum is made in the form of a container resiliently mounted on a base with a vibrator and assembled from three rectangular strips bent alternately in opposite directions at an angle of 140 ° along incisions made at an angle of 60 ° to each to the other and to the longitudinal edges of the strips, with the formation along the length of the strip of equilateral triangles arranged alternately in opposite directions, while the strips are connected to one another along the longitudinal edges at an angle of 70 °, with the formation along the inner perimeter of three broken curved, helical surfaces and three broken screw grooves of the main direction for moving seeds from loading to unloading, as well as two liters Omani curved helical surfaces and two helical grooves in the opposite direction for moving seeds from unloading to loading, and three broken helical lines of the main direction with a pitch S and two broken helical lines of the opposite direction with a pitch of 0.25 S are formed along the outer diameter of the container at the break points of the helical lines in which the points of convergence of the sides of six equilateral triangles are located, and the working body is made in the form of a cylindrical spring covered with a layer of rubber, mounted inside the container and equipped with a device for changing the pitch of the turns by stretching or compressing it.

The disadvantages of the known machine are limited technological capabilities, insufficient productivity, and manufacturing complexity.

The technical solution to the problem is to expand technological capabilities, increase productivity by imparting spatial motion to the seeds and the simultaneous impact of vibrations on them in three mutually perpendicular directions, and without a vibrator, as well as giving intermittent, zigzag shapes by broken helical surfaces and helical lines around the perimeter of the grinding drum, with rectangular cross section, additional transverse movement of seeds inside the grinding drum, simplifying the manufacture of the grinding drum

The technical solution is achieved by the fact that in a machine for pre-sowing processing of seed, containing a grinding drum resiliently mounted on a base with a vibrator, the inner surface of which is covered with a layer of rubber, having an unloading window and a working body mounted inside it in the form of a cylindrical spring covered with a layer of rubber, and equipped with a device for changing the pitch of the turns by stretching or compressing it, the metering hopper, the unloading chute, according to the invention, the grinding drum is made with intermittent, zigzag-shaped broken helical surfaces and broken helical lines along its perimeter, with a triangular cross-section, and is assembled from sections, each of which has the form of a rectangle and two identical lateral trapeziums, the lower bases of which are equal to the two lateral sides of the rectangle, the upper bases are equal to each other, and their sides are equal to the other two sides of the rectangle with the formation of equilaterals at the ends of the sections side triangles, equally inclined in different directions to the axis of the section, and each subsequent section is rotated relative to the previous section by an angle corresponding to the rotation of the section to one side of the triangle with the provision of inclination of the axes of the sections to each other and to the axis of rotation of the grinding drum from the condition of their intersection, and the cylindrical spring of the working body is made with a round section of the coils.

According to the data of the patent-technical literature, a technical solution similar to the claimed one was not found, which makes it possible to judge the inventive level of the proposed design of a vibration plant for pre-sowing processing of seed material.

The novelty lies in the fact that the grinding drum is made with intermittent, zigzag-shaped broken helical surfaces and lines along its perimeter, with a rectangular cross section and is assembled from sections consisting of a large and small rectangles and two identical trapezoids, the lower bases of which are equal to the lateral side of a large rectangle, and the upper bases are equal to the lateral side of the small rectangle, while the lateral sides of the trapeziums are equal to the other two sides of the large and small rectangles, with the formation of squares at the ends of the sections, inclined in different directions to the axis of the section, and the square of each subsequent section is rotated relative to the square of the previous sections by an angle corresponding to the rotation of the section on one side of it so that the axes of the sections are intersecting straight lines and are located at an angle to each other and to the axis of rotation of the grinding drum fixed on a frame resiliently mounted on the base, which creates vibrations due to imbalance ma ss of the grinding drum itself and the masses of seed material loaded into it. This technical solution gives and ensures the simultaneous effect of these vibrations on the seed in three mutually perpendicular directions, enhances the influence of vibrations of the entire structure of the installation on the process of pre-sowing seed processing, increases its intensity, which expands technological capabilities, increases productivity, efficiency and quality of processing.

The novelty lies in the fact that the combined effect of the rotary motion of the grinding drum and the masses of seed moving inside and the combination with this movement of the oscillations of the frame with the grinding drum attached to it, gives the seed a complex spatial movement, which increases productivity, efficiency and quality of processing.

The novelty lies in the fact that the centers of symmetry of the inner surface of the grinding drum in each element of the cross-section along its length are displaced relative to the axis of rotation, since the axes of the sections are intersecting straight lines and are located at an angle to each other and to the axis of rotation of the grinding drum fixed on the frame, resiliently mounted on the base, which creates vibrations due to the imbalance of the mass of the grinding drum itself and the masses of seed loaded into it, this not only violates the stationary movement of the particles of the seed, expands technological capabilities, but also contributes to the creation of eccentricity and excitation of vibrations of the grinding drum together with the frame ...

The novelty lies in the fact that the centers of symmetry of the inner surface of the grinding drum, in each element of the cross-section along its length, are displaced relative to the axis of rotation, which not only violates the stationary motion of the particles of the seed material, expands technological capabilities, but also contributes to the creation of eccentricity and excitation of oscillations of the grinding drum and frame.

The novelty lies in the fact that along the length of the grinding drum, the cross-section changes relative to each other and the distance from the axis of rotation of the grinding drum changes, and also changes at the junctions of the sections and the shape of the sections (from rectangle to polygon), then there is an increase in productivity and expansion of technological opportunities.

The novelty lies in the fact that as a result of the execution of a grinding drum with intermittent, zigzag-shaped broken helical surfaces and broken helical lines along its perimeter, with a rectangular cross-section, the stationarity of the movement of seed particles, which make a complex spatial movement in the vertical plane, is disrupted. elliptical trajectories, and in the horizontal plane - reciprocating, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that such a design of the installation and the grinding drum creates an unbalance in the rotating grinding drum, which gives it and the frame low-frequency vibrations, which not only intensify the process of pre-sowing seed processing, but also ensure the reliability of the transfer of seed from loading to unloading inside the grinding drum and out of the unit.

The novelty also lies in the fact that due to the fact that the axes of the sections of the grinding drum are intersecting straight lines and are located at an angle to each other and to the axis of rotation of the grinding drum, the stationarity of the flow of seed material is disturbed, therefore the size and place of their active interaction change noticeably the time of one revolution of the grinding drum, which not only ensures the movement of seed material from loading to unloading, but also expands technological capabilities, increases productivity.

The novelty is also seen in the fact that the square of each subsequent section of the grinding drum is rotated relative to the previous section by an angle corresponding to the rotation of the sections to one side of it, as a result, not only the pressure difference on the particles of the seed material inside the grinding drum is provided, but also its movement from the load to unloading.

The novelty lies in the fact that the particles of the seed material circulate in planes perpendicular to the axis of symmetry not only from the rotating grinding drum, but also from the low-frequency vibrations of the grinding drum together with the frame, fixed elastically on the body, which increases productivity and expands technological capabilities.

The novelty of the proposal lies in the fact that such a structural design of a vibration plant for pre-sowing processing of seed material with a working body fixed inside in the form of a cylindrical spring with a circular section of turns, covered with a layer of rubber, mounted inside the grinding drum and performing low-frequency vibrations together with it, creates not only counterflows of the movement of seed, but also ensures their accelerated longitudinal movement from loading to unloading with a horizontal arrangement of the grinding drum and ensures their intensive mixing, which expands technological capabilities, increases productivity.

The novelty lies in the fact that inside, along the entire length of the grinding drum, a cylindrical spring with a circular section of turns, covered with a layer of rubber, is mounted, which, together with the grinding drum, low-frequency vibrations, which provides not only movement in the opposite direction of the seeds from unloading to loading in a radical direction , but also contributes to the intensification of the process of their grinding (breaking off the seeds of thorns, etc.). Such a radical movement in the opposite direction is ensured due to the fact that the seeds that circulate inside the container in planes perpendicular to the axis of symmetry of the container, meeting the spring coils, change the trajectory of their movement and move from unloading to loading, which creates counterflows for the movement of seeds, increases processing intensity and expands technological capabilities.

FIG. 1 shows a structural diagram of a vibration plant for pre-sowing seed processing, general view, front view; in fig. 2 - section A-A in Fig. 1; in fig. 3 - grinding drum, general view, front view; in fig. 4 - grinding drum, general view, top view; in fig. 5 - view A in FIG. 3; fig. 6 - one of the sections of the grinding drum, visual representation; in fig. 7 is a diagram of the arrangement of the axes of the sections of the grinding drum, front view; in fig. 8 is a diagram of the arrangement of the axes of the grinding drum, top view, FIG. 9 is a diagram of the arrangement of the axes of the grinding drum, view along arrow B in FIG. 7.

A vibrating installation for pre-sowing processing of seed material consists (Fig. 1, Fig. 2) of a grinding drum 1, the inner surface of which is covered with a layer of rubber 2, a metering hopper 3, an unloading chute 4 and a drive (not shown). The grinding drum 1 is equipped with bushings 5 and 6 with the possibility of rotation in bearing supports 7 and 8. The nose 9 of the loading device 3 enters the hole of the bushing 5 of the grinding drum 1. The dispenser hopper 3, bearing supports 7 and 8 with the grinding drum 1 mounted in them are fixed on the frame 10. The frame 10 is suspended on four pneumatic bellows 11, which are fixed on the base 12. To increase the speed of the longitudinal movement of seed material from loading to unloading, the vibration installation for pre-sowing seed processing is equipped with a device (not shown in the drawing) to tilt the axis of rotation of the grinding drum 1 relative to the horizon. The drive is not shown in the drawings. Along the entire length, inside the grinding drum 1, a working body is fixed in the form of a cylindrical spring with a circular section of turns, covered with a layer of rubber (not shown in the drawing), which is equipped with a device for changing the pitch of the turns by stretching or compressing it (not shown in the drawing). Adjustment of the pitch of the coils of the spring can be carried out during the pre-sowing treatment of the seed material. The direction of the coils of the spring coincides with the direction of rotation of the grinding drum 1.

Grinding drum 1 (Fig. 3, Fig. 4, Fig. 5) is made with a rectangular flow section, mounted from sections 13. Each section 13 is mounted (Fig. 6) from two rectangles large 14, small 15 and two side trapeziums 16 and 17, the lower bases of which are equal to the lateral side of the rectangle 14, and the upper bases of the trapeziums 16 and 17 are equal to the lateral side of the small rectangle 15, while the remaining free two sides of the rectangles 14 and 15 are equal to the lateral sides of the trapeziums 16 and 17. When installing a section of two rectangles and two trapezoids are formed along the ends of the sections, squares inclined in different directions to the axis of the section 13.

When assembling the grinding drum 1, each subsequent section is rotated relative to the previous section by an angle corresponding to the rotation on one side of the square, so that the axes of the sections are inclined towards each other from the condition of their intersection (Fig. 7, Fig. 8). Thus, when mounting the grinding drum 1, each section 13 is rotated relative to the previous section by an angle corresponding to the rotation of the section to one side of the square, so that the axes of the sections 13 are inclined to each other from the condition of their intersection and are intersecting straight lines and are located at an angle not only to each other, but also to the axis of rotation of the grinding drum 1.

As a result of connecting the sections, a grinding drum 1 is formed (Fig. 3, Fig. 4) with a rectangular flow section and with intermittent broken helical lines along the perimeter 18-19-20, 21-22-23, 24-25-26.

When mounting the grinding drum 1 and turning the sections 13 clockwise, a grinding drum 1 is formed with the right direction of intermittent helical broken lines. FIG. 7, FIG. 8, the direction of movement of seed flows from loading to unloading is shown by a dotted line with arrows parallel to the axes of the sections. When mounting the grinding drum 1 and turning the sections 13 counterclockwise, a grinding drum 1 is formed with the left direction of intermittent helical broken lines.

The axes of the sections, including: the axis i ₁ -i _{1 of the} first section (Fig. 7, Fig. 8, Fig. 9), to which the second section is connected with the axis i ₂ -i ₂ , then the third section is connected with the axis i ₃ - i ₃ , then the fourth section is connected with the i ₄ -i ₄ axis, then the fifth section is connected with the i ₅ -i ₅ axis, then the sixth section is connected with the i ₆ -i ₆ axis, and so on intersect with each other. The axes of the sections, including the axis i ₁ -i _{1 of the} first section (Fig. 7-9), to which the second section is connected with the axis i ₂ -i ₂ , then the third section is connected with the axis i ₃ -i ₃ , and is also connected the fourth section with the i ₄ -i ₄ axis, then the fifth section with the i ₅ -i ₅ axis is attached, and so on, with respect to the axis of rotation of the grinding drum O ₁ -O ₂ are crossed straight lines, and they do not intersect with each other.

Vibrating machine for pre-sowing seed processing works as follows.

When the grinding drum 1 rotates, the seed material moves along different elliptical trajectories, the dimensions of which vary along the length of the grinding drum 1 in each cross section (Fig. 1, Fig. 2, Fig. 3, Fig. 4), while the centers of symmetry of the inner surface of the grinding drum 1 in each of its cross-sectional elements are displaced relative to the axis of rotation of the grinding drum 1, which violates not only the stationary motion of the seed material, but also contributes to the creation of eccentricity and excitation of oscillations of the grinding drum 1 together with the frame 10 and the seed material placed inside the grinding drum 1, thus, the seed material makes a complex spatial movement, which is aggravated by the asymmetry of its movement and moves from loading to unloading.

Therefore, the particles of the seed material make a complex spatial movement: in the vertical plane - along elliptical trajectories, and in the horizontal plane - reciprocating with the imposition of oscillations on these movements, excited by the asymmetric geometry of the grinding drum 1 (the grinding drum is made with an intermittent zigzag shape with broken helical surfaces and broken helical lines along the perimeter), and the simultaneous impact of vibrations on them in three mutually perpendicular directions. As a result, the flow of moving seed material is not stationary, and the size and location of their active mixing change noticeably during one revolution of the grinding drum 1. Therefore, as a result of the disturbance of the ordering of the process of movement of seeds, their movement becomes more active, the zone of inactivity is eliminated, the energy intensity of collisions of the particles of the seed material increases between themselves and with the walls of the grinding drum 1, which provides an increase in the productivity of pre-sowing processing. The process of non-stationary movement of seeds is aggravated by the fact that the axes of the sections are intersecting straight lines and are located at an angle to each other and to the axis of rotation of the grinding drum, which significantly changes the direction of movement of the seed material along the axis of rotation of the grinding drum 1 and creates zones of different pressure on the seeds. Therefore, the seeds have the ability not only to move along complex trajectories, but also to move in the axial direction from loading to unloading. The complication of the trajectories of seed movements is also facilitated by the coils of a cylindrical spring oscillating together with the grinding drum 1. As a result, not only the stationarity of the movement of the seed material is disturbed by the geometry of the flow section of the grinding drum 1, but also the miscibility increases due to the removal of the axes of the sections i ₁ -i ₁ ; i ₂ -i ₂ ; i ₃ -i ₃ ; i ₄ -i ₄ ; i ₅ -i ₅ , etc. from the axis of rotation of the grinding drum O ₁ -O ₂ , as well as their location as crossing lines relative to each other. The broken broken lines 18-19-20, 21-22-23, 24-25-26 also contribute to this.

Since along the length of the grinding drum 1 the cross-section changes relative to each other and the distance from the axis of rotation of the grinding drum О ₁ -О ₂ changes, and also changes at the junctions of the sections and the shape of the sections (from a rectangle to a polygon), then there is an increase in productivity and expanding technological capabilities.

The speed of movement of seeds from loading to unloading can be regulated by changing the angle of inclination of the entire vibratory installation for presowing seed processing.

The proposed design of a vibratory plant for pre-sowing seed processing allows to simplify production, increase productivity, and expand technological capabilities.

Claims (1)

A machine for pre-sowing processing of seed material, containing a grinding drum resiliently mounted on a base with a vibrator, the inner surface of which is covered with a layer of rubber, having an unloading window and a working body mounted inside it in the form of a cylindrical spring covered with a layer of rubber and equipped with a device for changing the pitch of the turns by stretching or compression, metering hopper, unloading chute, characterized in that the grinding drum is made with intermittent zigzag broken helical surfaces and broken helical lines along its perimeter, with a triangular cross section and is assembled from sections, each of which has the form of a rectangle, and two identical lateral trapezoids, the lower bases of which are equal to the two lateral sides of the rectangle, the upper bases are equal to each other, and their sides are equal to the other two sides of the rectangle with the formation of equilateral triangles at the ends of the sections, equally inclined in pa known sides to the axis of the section, and each subsequent section is rotated relative to the previous section by an angle corresponding to the rotation of the section to one side of the triangle, with the provision of inclination of the axes of the sections to each other and to the axis of rotation of the grinding drum from the condition of their intersection, and the cylindrical spring of the working body is made with a round section of turns.

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