RU2577392C1 - Precision seed planting unit rotary soaked seeds, melons and gourds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: precision seed sowing apparatus soaked seeds cultivated and melons, including cellular disk drive, set at an angle to the horizontal plane. Cells disc made in form and size of the seed culture were plated and has at its peripheral portion. This cellular disk drive is installed at an angle of 45-50° to the horizon. Over his cell at a height “δ”=δs.max +1.0 where δs.max - maximum thickness of the seed set restrictive ring with the ability to change its value. Width of the rings “b” is greater than the width of the cell to 0.5-1.0 mm. In the central part of the mesh disk drive is installed, the guide cone with a cone angle of seeds 20-30°. Base of the cone-guide is placed on the cellular disk drive at a distance of a =_s.max, Where a_s.max - maximum width of the seed from the lower edge of the guard ring. Cellular disk drive housed in a recess housing the sowing, which has in the upper part were seeded box, combined with the vas deferens and cells cellular disk drive. Above the cellular disk drive in the area of the seed box is also provided a flexible ejector preceded by a brush-reflector, fixed at an angle of 45-50° to the axis of the ejector.

EFFECT: invention will improve the accuracy of seed soaked seeds without damaging them.

1 cl, 2 dwg

Description

The invention relates to agricultural machinery, in particular to sowing apparatus for the exact sowing of seeds of crops soaked before sowing.

Known sowing apparatus, comprising a mesh drive disk with a seed reflector, a casing closed in the non-working area of the disk, and a mesh drive, while the mesh disk is installed at an angle to the horizontal plane, the cells are made in shape and size of the seed and are placed on the peripheral part of the disk in groups the number of cells in the group is equal to the number of seeds sown in the nest, and the distance between the groups is proportional to the adopted sowing step (the distance between the nests), annular protrusions between 1.5 and 2.0 mm wide are provided between the cells and a height equal to 0.6 ... 0.7 of the thickness of the seed, the seed reflector is made in the form of an elastic apron attached to the side wall of the seed box and has elastic protrusions in the area of the discharge window above the coulter - seed pushers, and is covered by a casing on top, while the seed the box at the peripheral part of the disk has a parabolic rounding of the vertical wall, and the conical drive of the cellular disk is closed by a casing (RU patent for the invention No. 2275784).

The disadvantages of the sowing apparatus include the inability to feed seeds in a continuous dashed flow at a speed of 30 ... 50 seeds per second, the low probability of filling all cells and ensuring accurate sowing.

Known sowing apparatus for precisely dashed sowing of seeds of grain crops, including a mesh drive disk mounted at an angle to the horizontal plane, the cells are made in the shape and size of the seed and placed on the peripheral part, while the disk on the peripheral part is provided with seed grafting cells mating with each other and separated jumpers, and the cells are located on the disk in two rows so that the cells of the second row overlap the jumpers of the first row, the thickness of the sowing disk "8" corresponds to the maximum the thickness of the seed of the sowing culture, the length of the cell "1" is greater than the length of the seed by 0.5. ... 1.5 mm, the width of the cell "in" is greater than the maximum width of the seed by 0.5 ... 1 mm, in the upper part of the cell there is an ovoid visor, located at the rear of the cell and covering the upper part of the cell by one third of its length, the visor is mated to the rear wall of the cell along a radius equal to the thickness of the seed disc, the seed disc is supported by a pallet made of material with a low coefficient of friction against seeds of grain crops, the pallet is fixed to the bottom of the seminal Drawer drive the seed disc in rotation is formed by a conical gear, seed disc is made replaceable depending on the seeded culture (RU, patent №2490855 C1).

The disadvantages of this sowing device include low accuracy of sowing due to the lack of a seed reflector and placement of only one seed in the cell, the possibility of seed sticking to the cell due to the lack of an ejector, and the uncertainty of the angle of installation of the mesh drive disk to the horizontal plane.

This sowing device is accepted by us as the closest analogue.

The problem to which the present invention is directed is to provide the possibility of feeding into the furrow formed by the coulter exactly the specified number of soaked seeds without damaging them.

Effect: save expensive seeds, increase germination and yield.

The specified technical result is achieved by the fact that in the known sowing apparatus for the exact sowing of soaked seeds of row crops and melons, including a mesh drive disk installed at an angle to the horizontal plane, the cells of which are made in the shape and size of the seed of the sowed culture and placed on the peripheral part of the disk, according to of the invention, the cellular drive disk is installed at an angle of 45 ... 50 ° to the horizon, and above the cells at a height of "δ" = δ _s.max +1.0, where δ _s.max is the maximum seed thickness, it is established restrictively th ring with the possibility of changing its size, the width of the ring “b” is 0.5 ... 1.0 mm wider than the cell width, a seed cone with a taper angle of 20 ... 30 ° is installed in the central part of the mesh drive disk, the base of the guide cone is placed on the mesh the drive disk at a distance a = a _c.max , where a _c.max is the maximum seed width from the lower edge of the restrictive ring, the mesh drive disk is located in the recess of the metering unit body, which has a metering window in the upper part, interfaced with the seed tube and mesh cells of the drive disk, and above the honeycomb drive disk in the area of the sowing window an elastic ejector is provided, in front of which there is a brush-reflector fixed at an angle of 45 ... 50 ° to the axis of the ejector.

The installation of the restrictive ring, reflector and ejector, as well as the cone-guide, provides the claimed technical result.

Information confirming the possibility of implementing the claimed invention are as follows.

The design of the metering unit is illustrated by drawings.

In FIG. 1 shows a cross section of a metering apparatus.

In FIG. 2 is a view A in FIG. one.

The sowing apparatus for the exact sowing of soaked seeds of row crops and melons includes a seed box 1, in the lower part of which a restrictive ring 3 is installed using a cylindrical belt 2, made in the form of a part of a rectangular triangle. A restrictive ring is installed above the cells at a height of "δ" = δ _s.max +1.0, where δ _s.max is the maximum seed thickness. Installation height 8 is adjustable. In the central part of the sowing apparatus, a 4-seed cone-guide is installed, which is fixed by a bolt 5 to the drive shaft 6, on which a mesh drive disk 7 is installed at an angle of 45 ... 50 ° to the horizon, on the periphery of which there are cells 8 made according to the shape and size of the seeds seeded culture. A mesh drive disk 7 is installed in the groove of the housing 9. Above the cells 8 in the restrictive ring 3, an elastic ejector 10 is installed. In the area of the cells 8 in the housing 9 there is a sowing window 11, coupled to the seed tube 12. The drive of the mesh drive disk 7 is made through a bevel gear 13 In front of the ejector 10, a reflector brush 14 is installed at an angle of 45 ... 50 ° to the axis of the ejector. The width of the restriction ring “b” is 0.5 ... 1.0 mm greater than the cell width.

The cone-guide has a taper angle of 20 ... 30 °, obtained experimentally, and the base of the cone-guide is placed on the mesh drive disk at a distance a = a _c.max , where a _c.max is the maximum seed width from the lower edge of the restrictive ring 3 .

The metering device operates as follows.

Before sowing, a sowing disk 7 is installed in the seed box 1, which corresponds to the dimensional characteristics of the seeds of the sowing culture.

Above the seed disk 7 at a height of "δ" is fixed to the restrictive ring 3 with the ejector 10 and the reflector 14.

Seed box 1 is filled with soaked seeds along with the water in which they are soaked, and sowing begins.

When the sowing disk rotates in the direction of the arrow (Fig. 2), the guide cone 4 orientates the seeds and directs them into the gap between the restrictive ring 3 and the sowing disk 7. In this case, the seeds are sent to the gap with a width-thickness plane. The restriction ring 3 facilitates the placement of seeds in cells 8 and prevents the loss of seeds from cells 8 during disk rotation. When approaching the sowing window 11, excess seeds are removed from the cells 8 by the reflector 14, and the ejector 10 directs the seeds into the seed tube 12. Installing the mesh drive disk 7 at an angle of 45 ... 50 ° to the horizon ensures 100% filling of the cells and 100% accuracy of sowing.

Claims (1)

The sowing device for the exact sowing of soaked seeds of row crops and melons, including a mesh drive disk installed at an angle to the horizontal plane, the cells of which are made in the shape and size of the seed of the seeded crop and placed on the peripheral part of the disk, characterized in that the mesh drive disk is installed at an angle 45-50 ° to the horizon and above its cells at a height of "δ" = δ c.max + 1,0, where δ c.max is the maximum thickness of the seed, a restrictive ring with the possibility of changing its size, the width of the and «b» longer cell width at 0.5-1,0 mm and in the central part of the mesh disk drive installed cone-guide seed taper angle 20-30 °, with the base of the cone-guide is placed on the cellular disk drive at a distance a = a _c.max , where a _c.max is the maximum seed width, in addition, from the lower edge of the restrictive ring, the mesh drive disk is located in the recess of the metering unit housing, which has a metering window in the upper part, connected to the seed tube and cells of the mesh drive disk, and over mesh the next disk in the area of the sowing window is provided with an elastic ejector, in front of which there is a reflector brush fixed at an angle of 45-50 ° to the axis of the ejector.

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