RU2528019C2 - Seed grinding machine - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: machine for grinding seeds comprises a grinding drum, which inner surface is coated with a layer of rubber, a metering hopper, and an unloading tray. The grinding drum is made in the form of container elastically mounted on the base with vibration exciter and mounted of two or more helical tetrahedral columns connected to a single technological chain. The inner surface of the columns is coated with a layer of rubber. The columns are rigidly mounted in tiers one under the other with the opposite direction of three broken helical column lines in a container closed on all sides. The latter has transitional lids coated inside with a rubber layer.

EFFECT: use of the invention enables to enhance the technological capabilities, to simplify the design and improve the performance.

6 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 mounted elastic plates having abrasive surfaces forming with a horizontal drum grinding chamber 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 its 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 one is a machine for grinding carrot seeds (patent No. 2251242, MKI A01C 1/00, publ. 05/10/2005, application 2004103436/12, 02/05/2004) containing a hopper rotating horizontally with a discharge window 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 the machine for grinding seeds containing a grinding drum, the inner surface of which is covered with a layer of rubber, a hopper-dispenser, an unloading tray, the grinding drum is made in the form of a container mounted from two or more screw tetrahedral columns connected into a single technological chain , the inner surface of which is covered with a layer of rubber, rigidly rigidly mounted one under the other with the opposite direction of three broken helical lines of columns in closed from all thoron container transition lids covered on the inside layer of rubber is elastically mounted on the base with the exciter.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge 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 such a design of the container, the presence of three running lines along the perimeter allows us to provide not only a longitudinal cascade movement of seeds from loading to unloading, but also provide intensive mixing with a large amplitude and a complex path of movement, which increases the grinding performance .

The novelty of the invention also lies in the fact that a tiered rigid installation with the opposite direction of three broken helical lines under each other and connected in a single technological chain of two or more helical tetrahedral columns significantly reduces the overall length.

The novelty of the present invention also lies in the fact that when the vibrator is operating, the seeds circulating inside the tetrahedral columns in planes perpendicular to the horizontal axis of the tetrahedral columns receive additional movement from the flat walls of the tetrahedral columns differently inclined to each other, which intensifies seed mixing and increases productivity grinding.

The novelty also lies in the fact that the directions of the helix lines for even and odd tetrahedral columns are opposite, which ensures continuous transport of seeds in the tiered tetrahedral columns from loading to unloading.

The novelty is also due to the fact that the cross-section of the containers, as the seeds move from loading to unloading, changes their location relative to the axis of symmetry, which violates the stationary motion of the seeds and improves grinding performance.

The invention is illustrated by drawings, where figure 1 shows a machine for grinding seeds, General view; figure 2 is a section aa in figure 1; figure 3 is a view a in figure 1; figure 4 is a view of B in figure 1; figure 5 - grinding drum in the form of a container - tetrahedral columns; in Fig.6 is a scan of the side surface of the tetrahedral column.

The machine for grinding seeds (Fig. 1, Fig. 2, Fig. 3) consists of means for loading 1 (hopper-dispenser), an unloading tray 2 for outputting seeds outside the vibrating machine for grinding seeds, a grinding drum made in the form of a container 3 installed with elastic elements 4 on the base 5. The container 3 is made of half-rigidly mounted one under the other and connected into a single technological chain of screw tetrahedral columns 6,7,8. Vibrators 9 are mounted in the lower part of the container 3. The nozzle of the means for loading 1 is mounted in the inlet of the tetrahedral column 6. The outlet of the tetrahedral column 6 is closed by a transition cover 10, which also covers the inlet of the tetrahedral column 7 and ensures the movement of seeds from their upper - the first tetrahedral columns 6 into the underlying second tetrahedral column 7, namely from the outlet 11 of the tetrahedral column 6 into the inlet 12 of the tetrahedral column 7. Outlet 13 in the second tetrahedral column 7 is closed by a transitional lid 14, which simultaneously covers the inlet 15 of the underlying third tetrahedral column 8, ensuring the transfer of seeds from the second middle tetrahedral column 7 to the lower third tetrahedral column 8. Under the outlet 16 of the third tetrahedral column 8, the discharge tray 2 is mounted .

Tetrahedral columns - first 6, second 7, third 8 are mounted from tetrahedral voids. The inner surface of the tetrahedral columns 6,7,8 is covered with a layer of rubber 17, for example, in FIG. 5, the tetrahedral column 6 is coated inside with a layer of rubber 17, and the inner surfaces of the covers 10 and 14 are coated with layers of rubber 18 and 19. The vertices of the tetrahedrons 20,21,22, 23.24; 25.26.27.28.29; 30,31,32,33 form distinct three broken helical lines (shown in FIG. 5 by thickened lines) around the perimeter of the hollow tetrahedral column, the inner surface of which is covered with a layer of rubber and inside which the seeds move. The cross-sectional shape of the tetrahedral columns (FIG. 2) is an irregular quadrangle, while not only the shape and dimensions of the quadrangle vary along the length of the tetrahedral column, but also their location relative to the axis of symmetry of the tetrahedral column.

Machine for grinding seeds works as follows.

Through the hopper of the dispenser (loading device) 1 inside the upper tetrahedral column 6, the seeds are continuously loaded. Under the influence of the disturbing forces of the rotating vibrator 9, disturbing forces are transmitted to the seeds through the walls of the box 6 and the tetrahedral columns 6,7,8 rigidly connected to it. Seeds under the influence of these disturbing forces under the influence of vibration rotate in planes perpendicular to the axis of symmetry of the tetrahedral columns 6,7,8. Flat multidirectional elements - the walls of the tetrahedral column 6 change and give additional movement to the seeds, and also move them from loading to the outlet 11. Under the influence of vibration and using the cover 19, the seeds are transferred to the underlying tetrahedral column 7 through the inlet 12, along the perimeter of which are located three broken helical lines, the direction of which is opposite to the direction of the helical lines of the upper tetrahedral column 6. With their help and under the influence of vibration, the seeds move to the output the hole 13 of the tetrahedral column 7, through the cover 14 are reloaded through the inlet 15 into the internal cavity of the tetrahedral column 8. Under the influence of vibration and flat miscellaneous walls and helical lines around the perimeter, the seeds move along the horizontal axis and through the hole 16 and with the help of the discharge tray 2 are discharged the limits of the machine for grinding seeds. In the process of moving seeds from the hopper 1 to the unloading tray 2, the seeds make a complex spatial movement, contact each other and with the walls of the tetrahedral columns 6,7,8, and since the direction of their movement under the influence of vibration changes under the influence of flat differently inclined walls of the tetrahedral columns 6,7,8, then the process of grinding the seeds is intensified, intensive grinding of the seeds takes place, while the spikes break off from the seeds, and the seeds due to friction on the rubber coating of the drum 3, adapter covers 10 and 14, as well as between each other, are intensively polished and then unloaded into the unloading tray 2. The tiered arrangement of the hollow tetrahedral columns not only intensifies the grinding process, but also significantly reduces the dimensions of the seed polishing machine.

Technical and economic advantages arise due to the provision of longitudinal movement of seeds and the creation of their counter flows by the wall-faces of the spatial shape of the grinding drum-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 that inside 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 walls of the grinding drum (container), and the presence of three running lines along the perimeter allows not only longitudinal cascade movement of seeds from loading to unloading, but also ensure intensive mixing with a large amplitude and a complex trajectory of movement, which increases the grinding performance, and tiered hard installation with the opposite direction of three broken helical lines under each other and connected into a single technological chain of two or more helical tetrahedral columns flaxen reduces the size of the machine for grinding seeds along the length. The technical and economic advantage also consists in the fact that during the operation of the vibrator, the seeds circulating inside the tetrahedral columns in planes perpendicular to the horizontal axis of the tetrahedral columns receive additional movement from the flat walls of the tetrahedral columns differently inclined to each other, which intensifies the mixing of seeds and increases the mixing grinding performance, while the cross-section of the containers as the seeds move from loading to unloading changes their relative position but the axis of symmetry, which violates the stationarity of the movement of seeds and contributes to increased grinding performance.

Claims (1)

A machine for grinding seeds containing a grinding drum, the inner surface of which is covered with a layer of rubber, a hopper-dispenser and an unloading tray, characterized in that the grinding drum is made in the form of a container, elastically mounted on the base with a vibration exciter and mounted from two or two connected to a single technological chain more screw tetrahedral columns, the inner surface of which is covered with a layer of rubber, while the columns are tiered rigidly mounted one under the other with the opposite direction t ex broken helices columns in a closed container on all sides with the transitional caps covered with a layer of rubber on the inside.

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