RU2516336C2 - Machine for grinding seeds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: machine for grinding seeds comprises a grinding drum, which inner surface is coated with a layer of rubber, with the discharge window, a working element, a measuring hopper, an unloading tray. The grinding drum is made in the form of a container which is elastically mounted on the base with a vibrator and mounted of three rectangular strips. The strips are alternately bent in opposite directions at an angle of 140° on the notches formed at an angle of 60° to each other and to the longitudinal edges of the strips to form the equilateral triangles along the strip length. The triangles alternately located in opposite directions. At that the strips are connected to one another along the longitudinal edges at an angle of 70° to form along the inner perimeter three polygonal curved helical surfaces and three polygonal helical grooves of the main direction to move the seeds from loading to unloading, and two polygonal curved helical surfaces and two helical grooves of the opposite direction for seeds from unloading to loading. Along the outer diameter of the container three polygonal helical lines are formed of the main direction with the pitch S and two polygonal helical lines of opposite direction with the pitch of 0.25 S, at the break points of the helical lines. At these points there are places of convergence of the sides of six equilateral triangles. The working element is made in the form of a coil spring coated with a layer of rubber, mounted inside the container and equipped with a device for changing the pitch of turns by its stretching or compressing.

EFFECT: machine has advanced technological capabilities, simplified construction and improved performance.

15 dwg

Description

The invention relates to the field of agricultural engineering, in particular to equipment for presowing treatment of seed material, and can be used to prepare for sowing seeds of small seeded crops, such as carrots.

A known machine for grinding beet seeds, containing a frame, a drive mechanism, a hopper, a rotating horizontal grinding drum with an abrasive surface formed by hemispherical protrusions, inside of which there is a working body, represented by a shaft, on which there are elastic plates having abrasive surfaces forming horizontal drum grinding chambers with a variable gap in the cross section. For unloading seeds, the machine is equipped with an unloading window and an unloading chute (ed. Certificate of the USSR No. 1470211, MKI A01C 1/00, published on 04/07/1989 in Bul. No. 13).

A disadvantage of the known device is the limited technological capabilities since this machine is not suitable for grinding small-seeded crops, for example carrot seeds, since the abrasive surfaces of the machine lead to a high degree of injury to these seeds, as a result of which the sowing qualities and germination capacity of the latter are sharply reduced. In addition, the machine has not high enough productivity.

Closest to the proposed is a machine for grinding seeds of carrots (patent No. 2251242, MKI A01C 1/00, publ. 05/10/2005, application 2004103436/12, 02/05/2004) containing a hopper that rotates with a discharge window horizontal grinding a drum, the inner surface of which is covered with a layer of rubber, a working body is installed inside the drum in the form of a frame with elastic rubber plates with screw corrugations.

A disadvantage of the known device is limited technological capabilities, design complexity and not high enough performance.

The technical solution is to expand technological capabilities, simplify the design and increase productivity.

The technical solution is achieved by the fact that in a machine for grinding seeds containing a grinding drum, the inner surface of which is covered with a rubber layer, with an unloading window, a working body, a hopper, an unloading tray, the grinding drum is made in the form of a container, elastically mounted on the base with a vibrator and mounted from three rectangular strips, bent alternately in opposite directions at an angle of 140 ° along incisions made at an angle of 60 ° to each other and to the longitudinal edges of the strips with the formation along the length of the strips of equilateral triangles, alternately located in opposite directions, with the strips connected to each other along their longitudinal edges at an angle of 70 ° to form three broken curved, helical surfaces and three broken screw grooves in the main direction along the inner perimeter, to move the seeds from loading to unloading , as well as two broken curved screw surfaces and two screw grooves in the opposite direction, for seeds from unloading to loading, and the outer diameter of the container Three broken helical lines of the main direction with a step S and two broken helical lines of the opposite direction with a step of 0.25 S are formed at the break points of the helical lines at 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, coated 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.

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 machine for grinding seeds.

The novelty is that the seeds circulate in planes perpendicular to the axis of symmetry of the drum not from the rotating grinding drum (it does not rotate), but from the disturbing force of the vibrator through the walls of the grinding drum (container).

The novelty of the invention lies in the fact that the elements of the broken curved, helical surface of the grinding drum made in the form of a container are differently inclined not only to each other, but also to the axis of symmetry of the drum, therefore, when the vibrator is working, the seeds circulating inside the container in planes perpendicular the axis of symmetry of the drum, receive additional movement from the elements of the broken curved helical surface of the container, inclined to each other, and since the number of ditches (Three) of the main direction is greater than the number of helical grooves in opposite directions (two), the longitudinal movement is provided by seed particles from loading to unloading, the intensity of their interaction, increases productivity and extend technological capabilities.

The novelty of the proposal lies in the fact that such a structural design of the machine with a working body fixed inside in the form of a cylindrical spring coated 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 allows not only to create counterflows of the movement of seeds, but and to provide their accelerated longitudinal movement from loading to unloading with a horizontal arrangement of the grinding drum and to provide intensive mixing, which expanding It has technological capabilities, increases productivity.

The novelty lies in the fact that a cylindrical spring coated with a layer of rubber is mounted inside the entire length of the container, which provides not only the movement of seeds in the opposite direction from unloading to loading in a radical direction, but also contributes to the intensification of the process of their grinding (chipping from spike seeds and t .P.). Such a radical movement in the opposite direction is ensured by the fact that the seeds circulating inside the container in planes perpendicular to the axis of symmetry of the container, meeting with the spring turns, change their trajectory and move from unloading to loading, which creates counterflows of seeds, increases processing intensity and expands technological capabilities.

The novelty also lies in the fact that the cylindrical spring mounted inside the entire length of the container is equipped with a device for changing the pitch of the coil spring by stretching or compressing it, which allows you to influence the nature of the movement of seeds when changing the performance of the machine for grinding seeds, which ensures regulation of the intensity of interaction of seeds , increases productivity, expands technological capabilities.

The novelty also lies in the fact that the twisting of each strip in the longitudinal and transverse directions provides an additional curvature of the surface of the container, which increases the difference between the angles of inclination of the vectors of movement of seeds in adjacent sections of the surface of the container, while the seeds move along complex paths, increasing the frequency of collisions or otherwise intensifying the processing process, which increases productivity and increases technological capabilities.

Figure 1 shows a structural diagram of a machine for grinding seeds, General view, front view; figure 2 is a section aa in figure 1; figure 3 - grinding drum made in the form of a container, General view; figure 4 is a view of figure 3; figure 5 is a section bB in figure 3; 6 is a view of the strip from which the container is made with weakened sections in plan; Fig.7 is a section bb in Fig.6; on Fig is a view of the strip after twisting in a vertical plane; figure 9 is a view of the strip after bending on a mandrel curved along a helical line in the transverse direction and bent along cuts with beveled walls; figure 10 is a cross section GG in figure 9; figure 11 - remote element 1; in Fig.12 is a cross-section EE in Fig.3; Fig.13 is a section FJ in Fig.3; Fig.14 is a cross-section ZZ in Fig.3; on Fig - section KK in figure 3.

The machine for grinding seeds (figure 1, figure 2) contains a grinding drum made in the form of a container 1 mounted horizontally on a plate 2, which is rigidly fixed with elastic elements 3 to the base 4. The container 1 is equipped with a vibrator 5, which is attached to plate 2. The longitudinal movement of seeds from loading to unloading in the container 1 is ensured by the fact that the number of screw surfaces and screw grooves of the main direction (three) exceeds the number of screw grooves in the opposite direction (two). To provide additional longitudinal movement in the opposite direction of the seeds inside the container 1, a coil spring 6 is mounted, which is equipped with a device for changing the pitch of the turns of the coil spring 6 by tension or compression (not shown). The adjustment of the pitch of the turns of the coil spring 6 can also be carried out in the process of grinding the seeds, i.e. during the operation of the machine.

Depending on the type of seeds, the required processing time, a spring pitch is set that meets the optimal grinding conditions. For example, if a short processing time is required, the spring pitch 6 is reduced and, thus, the seed flow in the opposite direction is changed, which means that their speed of movement from load to load changes accordingly. When grinding seeds that require a long residence time in the container 1, the step of the turns 6 is increased and thus the flow of seeds in the opposite direction is changed, which means that their speed of movement from loading to unloading changes accordingly. In the desired position, the spring 6 is fixed with known devices (not shown in the drawing). The adjustment of the step size of the spring 6 can also be carried out in the process of grinding the seeds. The coil spring 6 is coated with a layer of rubber 7.

The machine for grinding seeds (Fig. 1, Fig. 2) is equipped with a metering hopper 8 mounted on the plate 2 and an unloading chute 9. The inner surface of the container 1 is covered with a layer of rubber 10. The container 1 (Fig. 3, Fig. 4) is made from three rectangular strips 11, 12, 13 with the formation along the perimeter along the outer diameter of the container 1 of three helical lines 14-15-16-17-18-18; 21-22-23-24-25; 26-27-28-29-30, and according to the inner diameter of the three broken helical grooves K ₁ - 14-15-16-17-18-18-19; K ₂ - 21-22-23-24-25; To ₃ - 26-27-28-29-30 with an internal angle of 70 ° (figure 5). On all strips 11, 12, 13 (FIG. 6, FIG. 7), at an angle of 60 ° to the longitudinal edges 31 and 32, cuts 33, 34 with beveled walls (FIG. 7), arranged in pairs at an angle of one, are made alternately from opposite sides. to the other through milling, pressure treatment, etc. with the formation of equilateral triangles 35.

The geometry and angles λ, φ, ω, ψ, α, β of the bevels of notches 33, 34 (Figs. 6, 7) and their relative position determine the angles of inclination of equilateral triangles 35 to each other around the perimeter of container 1. Stripes 11, 12, 13 are folded in a vertical plane (Fig. 8) in the longitudinal direction with respect to the axis of symmetry of the strip, and then bent along helical lines in the transverse direction (Fig. 9) and bent along notches 33, 34 with beveled walls in the transverse longitudinal direction located in pairs at an angle to one another on both sides of the strips, like, n for example, strips 11 in FIGS. 6, 7, 8, 9. FIG. 8 shows one of the strips, for example 11, twisted in a vertical plane along its longitudinal axis with side edges 31 and 32. Pre-twisted in a vertical plane relative to the longitudinal axis a strip, for example 11, is placed on the shipment 36 (Fig. 9, Fig. 10) and bent so that the edges 31 and 32 are placed along the helical lines in the transverse direction.

After bending in the transverse direction, each of the strips 11, 12, 13 is rotated relative to the longitudinal axis of the container 1 so that their edges also form helical lines in the transverse direction of the strips with the same pitch for all strips. After that, the strip is removed from the shipment 36, or fixed on the shipment 36. The remaining strips, for example 12 and 13, are processed in the same way. After the strip is folded, for example, the strip 11 (Figs. 6, 7, 8, 9), cuts 14-21, 21- 15, 15-22, 22-16, 16-23, 23-17, 17-24, 24-18, 18-25 are welded, stiffening ribs are formed as a result. Strips 11, 12, 13 after bending are connected to each other along the longitudinal edges 31 and 32 at an angle of 70 ° (Fig. 5), and along the outer diameter of the container there are three broken helical lines of the main direction with step S and two broken helical lines of the opposite direction with increments of 0.25 S.

Such a connection of the three strips 11, 12, 13 becomes possible, since after bending the strips 11, 12, 13 along straight lines of the notches 33, 34 (Fig. 8, Fig. 9) at an angle of 140 ° alternately to each other in opposite directions ( figure 3) on the strip, faces are formed in the form of equilateral triangles 35 located on the strip alternately in opposite directions with the formation along the longitudinal edges of the strips 11, 12, 13, more precisely along the perimeter of the outer diameter of the container 1 of three broken helical lines of the main direction 14-15- 16-17-18-19; 21-22-23-24-25; 26-27-28-29-30 with step S (Fig. 3), one of which is shown by a thickened line 14-15-16-17-18-19 in Fig. 3, and two broken helical lines in the opposite direction, one of which in Fig. 3 shows a thickened line 25-29-17-23-27-15-21 in increments of 0.25 S. Fig. 3 shows a thickened line 14-15-16-17-18-19 one of three broken screw the lines of the main direction with a step S, at each of the break points of which at the vertices of the broken helical lines of the main direction (Figs. 3, 11) there are places of convergence of the sides of six equilateral triangles T ₁ , T ₂ , T ₃ , T ₄ , T ₅ , T ₆ . For example, at point 17 (FIG. 11), the sides 37, 38, 39, 40, 41, 42 of six equilateral triangles T ₁ , T ₂ , T ₃ , T ₄ , T ₅ , T ₆ converge. The connection of the strips 11, 12, 13 can be carried out by known methods, for example by welding.

In this design, along the length of the container 1, each cross-section-passage section differs from the previous one not only in the shape of the section (Figs. 12, 13, 14, 15), but also in their location relative to each other, and the area of the passage section also changes, which violates Stationary movement of seeds, increases the intensity of their interaction, expands technological capabilities. In this design of the container 1, three broken helical grooves of the main direction K ₁ - 14-15-16-17-17-18-19 are formed along the inner perimeter; K ₂ - 21-22-23-24-25; To ₃ - 26-27-28-29-30 with an internal angle of 70 ° and step S (Fig. 3) and two broken screw grooves in the opposite direction with a step of 0.25 S, one of which is shown in Fig. 3 by a thickened line 25 -29-17-23-27-15-21. These grooves not only facilitate the movement of seeds from loading to unloading, but also ensure their intensive movement, increase the intensity of their interaction, and expand technological capabilities.

Machine for grinding seeds works as follows. The disturbing force of the rotating vibrator 5 through the plate 2 and the walls of the container 1 is transmitted to the seeds (Fig. 1, Fig. 2), which are loaded in a continuous stream using the hopper 8. Under the influence of vibration, the seeds rotate - circulation movement in planes perpendicular to the longitudinal container axis 1. Radial movement of seeds from loading to unloading is provided by broken screw grooves of the main direction 14-15-16-17-18-19; 21-22-23-24-25; 26-27-28-29-30 with an internal angle of 70 ° and step S and broken helical surfaces of the main direction, more precisely curled and curved stripes 11, 12, 13, triangular faces of which are in the form of equilateral triangles 35, covered with a layer of rubber, meeting with seeds, under the influence of vibration, rotate - circulation movement in planes perpendicular to the longitudinal axis of the container 1, direct them towards the discharge. Radial movement of seeds from unloading to loading, i.e. in the opposite direction, is ensured due to the fact that the seeds circulating inside the drum (container) 1 in planes perpendicular to the axis of symmetry of the drum, meeting with the coils of a fixed spring, change the trajectory of their movement and move from unloading to loading, i.e. . in the opposite direction. When this seed moves along the helical windings of the spring 6, ensuring their movement in the opposite direction. The frequency of movements and collisions of seeds is determined not only by the frequency of the vibration activator and the number of faces 35 around the perimeter of the container 1, but also by the presence of turns and a step of a coil spring 6 mounted stationary (motionless) inside the container 1. Therefore, the proposed design of the machine for grinding seeds provides an increase not only frequency characteristics, but also the frequencies and amplitudes of their movement, active circulation and interaction are also provided.

Thus, the grinding process is also activated by turns of a cylindrical spring mounted motionless inside the container 1, which change the direction of movement of the seeds, directing them in the radial direction towards the load, i.e. in the opposite direction, which increases the intensity of their circulation, increases the frequency of interaction, creates counterflows, improves grinding performance and expands technological capabilities. As a result, the seeds, overcoming the resistance of their flows from the turns of the spring 6, make a complex spatial movement, intensive grinding of the seeds occurs, spikes break off from the seeds, and the seeds are rubbed against the rubber coating of the drum 3 and the turns of spring 6, as well as between each other intensively polished and then unloaded from the container 1 into the unloading tray 9.

Technical and economic advantages arise due to the provision of longitudinal movement of seeds and the creation of their counter flows by the walls-faces of the spatial shape of the container in the form of equilateral triangles located at an angle not only to each other, but also to the longitudinal axis of the container, due to the fact that inside the entire length of the container is mounted motionless cylindrical spring, which provides not only movement in the opposite radial direction, but also helps to intensify the interaction with sow with each other and with the walls of the container due to the fact that the cylindrical spring is equipped with a device for changing the pitch of the turns of the cylindrical spring by stretching or compressing it, which allows you to influence the nature of the movement of seeds, to change the performance of the machine for grinding seeds, which allows you to control the intensity of interaction seeds, increases productivity, expands technological capabilities.

Claims (1)

A machine for grinding seeds, containing a grinding drum, the inner surface of which is coated with a rubber layer, with an unloading window, a working body, a hopper-dispenser, an unloading tray, characterized in that the grinding drum is made in the form of a container elastically mounted on a base with a vibrator and mounted from three rectangular strips bent alternately in opposite directions at an angle of 140 ° along the notches made at an angle of 60 ° to each other and to the longitudinal edges of the strips with the formation along the length of the strip equilateral triangles arranged alternately in opposite directions, with the strips connected to each other 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 helical grooves of the main direction for moving seeds from loading to unloading, and two broken curved helical surfaces and two helical grooves of the opposite direction for seeds from unloading to loading, and three containers are formed along the outer diameter of the container These main-line helical lines in increments of S and two broken helical lines in the opposite direction in increments of 0.25 S, at the break points of helical lines at 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 coated 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.

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