RU2685733C1 - Device for seed sowing of seeds - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: invention relates to agricultural machine building, particularly, to devices for accurate sowing of tilled crop seeds. Device for seed sowing of seeds is made in form of a set of fixed and two movable disks. Discs are made with possibility of displacement around horizontal axis by specified angle and their fixation. On cylindrical surfaces of fixed cylindrical disc, movable inner cylindrical disc and movable outer cylindrical disc there are cells, above which there are annular trapezoidal grooves. On the end surface of the fixed cylindrical disc there are circular holes with uniform pitch along the circumference. On end surface of movable cylindrical discs there are elongated holes with uniform circumferential pitch with width equal to diameter of round holes.EFFECT: use of the invention will make it possible to increase seed coverage of cells, uniformity of sowing with specified distances in one seat and between sockets that promotes creation of the best conditions for growth and development of plants.1 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to devices for precise seeding of tilled crops.

A sowing unit is known (see RF patent for invention No. 2042303 C1 А01С 7/00 dated August 27, 1995), including a housing with a sowing disk mounted vertically on an axis, consisting of rings with cells made on a cylindrical surface with the possibility of displacing one ring relative to the other around the axis of the disk at a certain central angle, and on the end surface around the circumference through through holes with a variable central angle.

A disadvantage of the known sowing apparatus is the reduction of the fill factor of the cells with seeds while increasing the speed of rotation of the sowing disc due to the lack of a guide groove on the side surface of the sowing disc.

The sowing apparatus is known (see RF patent for invention No. 2556722 C1 А01С 7/04 dated 07/20/2015), including a housing with a cylindrical disk mounted on a horizontal axis, on the side surface of which a fillet, chamfer cells and bouncer are made.

A disadvantage of the known sowing apparatus is the discrepancy between the fillet profile and the shape of the seeds, which creates prerequisites for possible passes when filling in free cells, which leads to uneven distribution of seeds in a row.

The closest to the present invention is a device (see patent for invention of the Russian Federation No. 2127032 А01С 7/00, А01С 7/04 dated 10.03.1999), including a sowing device, containing a hopper, a roller-reflector, installed in the case a cellular sowing disk, consisting of a base, rings, made in the form of parts along the cell axis, while the cells in the outer rows of the rings are angled to the axis of the vertically mounted disk and the seed ejectors are installed in the outer rows, at an angle to the axes of the cells of the central row of the seed disc.

A disadvantage of the known device are single gaps when the cells are filled with seeds, which arise due to their uncontrolled placement over the cylindrical surface of the sowing disc, which negatively affects the formation of an organized row of seeds above the cells.

The purpose of the invention is to increase the occupancy of the cells due to the clear orientation and metered piece of seed flow into the cells of the seed disks from the formed organized row and increase the uniformity of their distribution in the nests.

This goal is achieved by the fact that in the device for nested seeding of seeds, made in the form of a set of disks, on a cylindrical surface of which cells are placed with the possibility of displacement around the horizontal axis of the disks at a given angle and fixing disks with through holes on the end surface with variable pitch around the circumference, According to the invention, a trapezoidal groove is made on the cylindrical surface of the disks above the cells, and round and oblong holes are made on the end surface of the disks by circular step.

The number of seeds in the nest is determined by the number of sowing disks, and the formation of nests with seeds in the furrow is carried out by placing cells with a uniform circumferential pitch on the lateral surface of the sowing disks displaced relative to each other by a given circumferential pitch, determined by the distance between the seeds in the nest.

The proposed device allows you to sow seeds in several pieces in the nest with equal spacing.

The invention is illustrated by drawings, where in FIG. 1 shows a device for nested seeding of seeds, general view; in fig. 2 - fixed disk; in fig. 3 - movable disk.

(фиг. 1). На торцевой поверхности неподвижного цилиндрического диска 1 выполнены с равномерным шагом по окружности круглые отверстия 7 (фиг. 1, 2) для его крепления в корпусе высевающего аппарата (на фигурах не показан). На торцевой поверхности подвижных цилиндрических дисков 2 и 3 выполнены продолговатые отверстия 8 с равномерным окружным шагом p между центрами отверстий 8, соединенных между собой дугообразным вырезом шириной равным диаметру отверстий 7 (фиг. 3).On the side surfaces of the fixed cylindrical disk 1, the movable inner cylindrical disk 2 and the movable outer cylindrical disk 3 are cylindrical cells 4 with a diameter equal to the maximum seed width of a certain fraction and a depth equal to the maximum seed length with chamfers 5 with a depth of 0.2 cell diameter, made at an angle of natural seed slope in the direction of rotation of the fixed 1 and movable cylindrical disks 2, 3, on which are made annular trapezoidal grooves 6 with the upper base avnym maximum length of the seed, the lower base of the upper edge of the cell length equal to their diameter and a height equal to the maximum thickness of the seed (Fig. 1, 2, 3). The cylindrical cells 4 on the side surfaces of the fixed disk 1 and the movable cylindrical disks 2, 3 are arranged with a circumferential step equal to

(Fig. 1). On the end surface of the stationary cylindrical disk 1 are made with uniform pitch around the circumference of the round holes 7 (Fig. 1, 2) for mounting it in the housing of the sowing apparatus (not shown in the figures). On the end surface of the movable cylindrical disks 2 and 3, oblong holes 8 are made with a uniform circumferential pitch p between the centers of the holes 8 interconnected by an arcuate notch with a width equal to the diameter of the holes 7 (Fig. 3).

по верхней кромке цилиндрических ячеек 4 устанавливают подвижный внутренний цилиндрический диск 2 и подвижный наружный цилиндрический диск 3 (фиг. 1). Полученный набор дисков, состоящий из неподвижного цилиндрического диска 1, подвижного внутреннего цилиндрического диска 2 и подвижного наружного цилиндрического диска 3 скрепляют гайкой 10 и между дисками образуются перегородки 11 (фиг. 1). Таким образом, предлагаемое устройство настраивают на высев семян с заданными расстояниями между семенами в гнезде

и между гнездами L. Изменение этих расстояний осуществляют без разборки устройства после снятия сжимающего усилия ослаблением гайки 10 и разнонаправленным смещением подвижного внутреннего цилиндрического диска 2 и подвижного наружного цилиндрического диска 3 относительно неподвижного цилиндрического диска 1 по продолговатым отверстиям 8, соединенным между собой дугообразным вырезом шириной равным диаметру отверстий 7 с равномерным окружным шагом p между центрами радиусов отверстий 8.Previously, the device is set to a predetermined seeding rate. To do this, a fixed cylindrical disk 1 with holes 7 is installed on the studs 9 of the sowing apparatus (not shown in the figure), in which the multidirectional displacement relative to each other along the oblong holes 8 at a predetermined pitch

on the upper edge of the cylindrical cells 4 establish a movable inner cylindrical disk 2 and a movable outer cylindrical disk 3 (Fig. 1). The resulting set of disks, consisting of a stationary cylindrical disk 1, a movable internal cylindrical disk 2 and a movable external cylindrical disk 3 are fastened with a nut 10 and partitions 11 are formed between the disks (Fig. 1). Thus, the proposed device set up for planting seeds with predetermined distances between the seeds in the nest

and between the sockets L. Change these distances without disassembling the device after removing the compressive force by loosening the nut 10 and multidirectional displacement of the movable inner cylindrical disk 2 and the movable outer cylindrical disk 3 relative to the stationary cylindrical disk 1 along oblong holes 8, interconnected by an arcuate notch the diameter of the holes 7 with a uniform circumferential step p between the centers of the radii of the holes 8.

и между гнездами в борозде с расстоянием L.The principle of operation of the device is as follows. Seeds in cells 4 with a diameter and depth equal to the maximum seed length of a certain fraction having chamfers 5 with a depth of 0.2 cell diameters, made at an angle of natural slope of the seeds in the course of their rotation, a stationary cylindrical disk 1 and movable cylindrical disks 2 and 3, on the ring trapezoidal grooves 6 with an upper base equal to the maximum length of the seed, a lower base along the upper edge of the cells with a length equal to their diameter and a height equal to the maximum thickness of the seed and on the partitions 11 between the stationary m cylindrical disk 1, a movable inner cylindrical disk 2 and a movable outer cylindrical disk 3 when the device rotates alternately sink into free cells 4 in which they are transported to the unloading area and fall out of them under the action of gravity and are placed evenly in the slot with the distance between the seeds equal

and between the sockets in the furrow with a distance of L.

Compared with the prototype of the proposed device allows to increase the occupancy of the cells with seeds due to their oriented placement over the trapezoidal grooves and cells of the sowing disks and their dosed piece of income in the cells from organized rows of seeds.

Thus, the seeds are evenly sown with the proposed device with given distances in one nest and between the nests, which helps create better conditions for the growth and development of plants.

Claims (1)

Device for nested seeding of seeds, made in the form of a set of disks with placement of cells on a cylindrical surface and with the possibility of displacement of disks around the horizontal axis at a given angle and fixation of disks with through holes on the end surface with variable pitch around the circumference, characterized in that above the cells of the disks Trapezoidal grooves are made, round through holes with uniform circumferential pitch are made on the end surface of the stationary cylindrical disk, and movable on the end surface cylindrical discs are made with a uniform circumferential pitch with oblong through holes with a width equal to the diameter of the round holes.

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