RU2127032C1 - Sowing method and apparatus - Google Patents

Abstract

FIELD: agricultural engineering, in particular, sowing of crops, such as soya, buckwheat, millet, kidney beans, and alfalfa to produce seeds. SUBSTANCE: method involves providing additional seed flows at an angle to both sides of main seed flow in equally spaced relation to it. Seeds are thrown in furrow at different distances relative to axis of outer single-grain row. Apparatus has vertical seeding disk, rings with cells, with cells in outer rings being positioned at an angle to disk axis, and seed ejectors arranged in outer cell rows at an angle to axes of cells of central row in seeding disk. Such method and construction of apparatus allow protective zones of reduced size to be used during interrow cultivation operations. EFFECT: improved uniformity in distributing seeds over furrow bottom and enhanced reliability in operation. 3 cl, 3 dwg

Description

 The invention relates to agricultural machinery, in particular to a method of sowing and a device for its implementation, which can be used for sowing seeders mainly soybean, buckwheat, millet, beans, alfalfa seeds.

 A known method of sowing, including sowing seeds in the furrow formed by the opener, at an equal interval. (See Buryakov Yu.P. Industrial technology for the production of soybeans. - M.: Rosselkhozizdat, 1985. - S. 61-97).

 A known method of sowing is that the seeds (for example soybeans) are sown at equal intervals in the furrow in one dotted line. The advantages of the dashed method of sowing is an increase in yield with a reduced seeding rate. The increase in productivity is achieved due to an equal interval between plants, plant illumination.

 However, the known method of sowing (soybean) has disadvantages.

 When carrying out inter-row treatments, it is necessary to leave protective zones 10 ... 12 cm wide on each side of the dashed line. This means that when inter-row processing, for example soybeans, only 40 ... 45% of the sown area is processed, and most of it remains inaccessible for working bodies of a cultivator. Weeds that compete with soybean plants develop in the protective zones left without care. This leads to inhibition of soybean plants, insufficient lighting and a low degree of productive tillering. When reducing the protective zones during inter-row treatments, it is possible to displace the organs of the cultivating cultivator, which leads to the complete cutting out of dotted lines. (See Gershevich M.G., Kalinich G.F., Dovbenko N.S., Slobodyan A.K. Ways of soybean sowing and ways to improve sowing machines // Transactions / Primorsky Agricultural Institute. - Ussuriysk, 1974. - Issue 29 . - S. 102-106).

 In addition, on dotted crops in one line according to the 45x5 cm pattern, low placement of beans on the plant is noted, which leads to losses during harvesting (see Lipin V.D. Development of a method for sowing soybeans and technical equipment for its implementation in the Penza region: Report About the Scientific and Research Institute of the Institute of Mineral Resources Management; NR 01860053204, inv.N 02910012270, M .: 1990 - 124 p.).

 Known dotted sowing is carried out with beet seeder ССТ-126 (see. Passport. Technical description and instruction manual for beet-mounted mounted seeder ССТ-12Б, Kirovograd, 1983. - 92 s).

 The known seeder is intended for dotted sowing of calibrated ordinary and small norms of pelleted sugar beet seeds with the simultaneous introduction of granular mineral fertilizers into the rows. When completing the sowing apparatus, they sowed with appropriate devices; sowing of seeds of soybean, millet, buckwheat, beans, sugar-coated beet seeds is possible.

 For example, in a device for sowing seeds of soybean includes a sowing disk with two rows of cells (cell diameter 9 mm), a reflector roller with an elastic surface, an ejector and walls to increase the capacity of the hopper. (See the device for sowing seeds STYA 31.000 for beet seeders of the type 2STCH-6A, SST-12A, SST-12B, SST-12V, SST-8A, SST-8V. Passport. Kirovograd. - 1983. - 15 p.

 A known metering device carries out the sowing of seeds in only one dotted line.

Also known is a method of sowing soybeans, including sowing seeds into the soil in rows of several pieces - in separate nests at an equal interval, which is determined by the expression
L = n • a,
where n is the number of seeds in the nest;
a - the interval between soybean seeds in the dotted method of sowing when sowing one seed in the nest.

 (See the application for the invention "Method of soybean sowing" N 5055053/15/034481, the date of receipt of the application 16.07.93).

 The known method of soybean sowing allows you to place the plants in the line more sparse than with the dashed line, and in the nest the number of seeds depends on the zonal cultivation zones, and the distance between the nests on the number of seeds in the nest. The seeding rate is the same as for the dotted sowing (selected for analog). With the known method of sowing, the height of the plants is greater than that of the dashed ones. The method of sowing provides a higher placement of beans on the plant. This reduces losses during cleaning.

 A known method of soybean sowing, including sowing seeds into the soil in rows of several pieces — in separate nests at an equal interval, which depends on the number of seeds in the nest (selected for the prototype), has disadvantages.

 When sowing, one stream of seeds is created and the seeds are sown in one dashed line. This leads, as already noted, to the cutting of plants in dashed lines and an increase in the protective zones in which weeds successfully develop.

The known method of sowing is carried out by a sowing apparatus containing a hopper, a roller-reflector, in the housing mounted sowing disk, consisting of a base, rings, made in the form of parts along the cell axis, adjusting plates, and on the cylindrical part of the base and rings in contact with the base, containing parts along the cell axis, adjusting plates, through holes are made through the circumference of the end surface in increments
T _p = T _o -H + C,
where T _p - a variable pitch between the centers of the half-holes;
T _o - the largest step between the centers of the half-holes;
H is a natural number;
C is a constant number.

 (See A.S. 1831987, class A 01 C 7/04, B.I. N 29, 1993).

 For sowing seeds with different seed placement in the furrow: dashed, row, dashed-nested with different number of seeds in the nest, the design of the sowing disk allows you to move rings with cells made in the form of parts relative to each other along the cell axis, i.e. shift the cells of one row of rings relative to another. However, the design of the sowing apparatus allows you to create one sowing flow and place the seeds in one dotted line.

 The purpose of the invention is to increase the uniformity of the distribution of seeds along the bottom of the furrow and reduce the protective zones during inter-row treatments.

 This goal is achieved by the fact that the method of sowing, including sowing seeds in the soil with one thread in rows, one at a time and in several pieces, in separate nests at an equal interval, sowing is carried out by creating additional seed flows on both sides of the main stream, with placement at an equal interval, but with various rolling in the furrow due to the creation of additional seed flows at an angle to the main one.

 This goal is achieved by the fact that in the metering device containing the hopper, a reflector roller mounted in the housing of the metering disk, consisting of a base and rings made in the form of parts along the axis of the cells, and the cells of the outermost rows are made at an angle to the axis of the vertically mounted disk and the ejector seeds in the extreme rows of cells installed at an angle to the axes of the cells of the Central row.

 Comparative analysis with the prototype shows that the claimed method of sowing seeds of row crops and the claimed device for its implementation meets the criterion of "Novelty" as there are differences from the prototype.

 1. Sowing seeds is carried out by creating additional threads.

 2. Additional streams are created on both sides of the main seed stream.

 3. Seeds are placed in the lateral dotted lines with different rolling in the furrow.

 4. The cells on the lateral extreme removable rings of the disk are made at an angle to the longitudinal axis of the vertically mounted disk.

 5. The seed pushers in the lateral extreme removable rings are installed at an angle to the cell axes of the central row of disk cells.

 In the inventive method of sowing seeds in order to increase the uniformity of the distribution of seeds along the bottom of the furrow, seed dispersion is created, i.e. sowing seeds not in one central stream, but in several. Two additional seed streams are created, except for the central one. Sowing of seeds is carried out by a strip. Central seeding creates a central dotted line in the strip.

 With additional flows directed to the side at an angle from the central flow, the seeds are sown in additional dashed lines, the seeds are sown in the furrow with three dashed lines.

 In order to reduce the protective zones during inter-row cultivations of crops and to prevent the cutting of plants in dashed lines, the seeds are sown with additional streams in the extreme lines with rolling in the furrow relative to the axis of the extreme dashed line.

 In order to create additional streams of seed seeds, the cells on the extreme rings of the seed disk are made at an angle to the longitudinal axis of the disk. Thus, from the middle (central) row of cells of the sowing disk, the seeds are sown dashed in the central rows of the strip, and from the extreme rows of the cells of the disk rings, made at an angle to the longitudinal axis of the sowing disk, the seeds are sown with additional flows into the extreme dashed rows.

 Not one dotted line is created in the furrow, but several. A more uniform seed distribution in the furrow is created.

 From the central row of cells, seeds are sown under the action of an ejector, which is located along the cells made at right angles to the longitudinal axis of the disk. In this case, the seeds are sown in the central dotted line of the strip. Due to the scatter in the linear sizes of the seeds within the fraction, one part of the seeds is free in the cells, and the other part of the seeds is in a pinched state. Therefore, one part of the seeds from the cells of the central row (cells) is sown under its own weight, and the other under the action of the ejector. Since the cells are made at an angle right to the axis of the sowing disk, the seeds are sown in the furrow of the center line with rolling along the dotted line.

 In the cells of the extreme rows of the disk, the seeds are freely and in a pinched state. Since the cells are made at an angle to the longitudinal axis of the sowing disk, some of the seeds that are freely in the cells fall to the bottom of the furrow closer to the central dotted line, but in the second and third lines.

 Seeds that are in the cells of the extreme rings of the disk in a pinched state, made at an angle to the longitudinal axis of the disk, are sown under the action of ejectors. In this case, the seeds are sown into the furrow at an angle and fall along a certain trajectory further from the central dotted line and, moreover, with rolling along the furrow.

 Thus, the seeds are sown in the furrow not in one dotted line, but in a stripe. In the strip, the seeds are placed in the furrow with a central line and side dashed lines, in which the seeds are sown with different rolling in the lateral direction.

 Identified signs of a technical solution of the proposed method of sowing seeds and a device for its implementation allow us to conclude that the technical solution meets the criterion of "Significant differences".

 In FIG. 1 shows a device for sowing seeds according to the claimed method; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section of the sowing disk of the device for implementing the inventive method of sowing when unloading cells and the distribution of seeds in the furrow.

 A device for implementing the inventive method of sowing seeds contains a sowing apparatus including a hopper 1, a housing 2, a sowing disk 3, cells 4, a reflector 5, an axis 6 of the sowing disk 3, an ejector 6.

The sowing disk 3 consists of the constituent parts of the rings 7 and 8, 9 and 10, 11 and 12. Between the parts of the rings 7 and 8, 9, 10, 11 and 12, the adjustment plates 13 are installed, necessary to change the width of the cells 4. Parts of the rings 7 and 8, 9 and 10, 11 and 12 are interconnected by screws 14. Cells 4 of the central row of the seed disk 3 are made at an angle of 90 ^° to the longitudinal axis of the seed disk 3.

Cells 15 of the outermost rows of rings of the seed disk 3 are made at an angle α <90 ^° to the longitudinal axis of the seed disk 3.

The pushers 6 for unloading the cells 4 of the central row are installed at an angle of 90 ^o to the longitudinal axis of the seed disk 3.

The pushers 16 for unloading the cells 15 of the extreme rows of rings of the disk 3 are installed at an angle α <90 ^o to the longitudinal axis of the seed disk 3 or at the same angle to the cell axes of the central row of the disk.

 The pushers 6 and 16 are mounted on the axis 17.

 The method of sowing seeds is as follows.

 When the seed disk 3 rotates, seeds from the hopper 1 enter cells 4 and 15. Excess seeds are removed by the reflector roller 5. With further rotation of the seed disk 3, the seeds are in cells 4 and 15 and are held by the wall of the apparatus body 2.

 In the lower part of the apparatus, seeds are sown from cells 4 and 15. The ejectors 6 unload cells 4 and direct the seeds to the central row of the dotted line of the strip. Seeds are dotted in the furrow.

 The pushers 16 unload the cells 15 from the extreme rows of the disk rings and direct the seeds to the extreme (side) rows of the strip. Due to the dispersion of the linear sizes of the seeds within the fraction, part of the seeds are in the cells 15 freely, and the other part of the seeds is in the cells 15 in a pinched state.

 Therefore, part of the seeds falls out of cells 15 freely under their own weight and fall to the bottom of the furrow closer to the center line of the strip. Another part of the seeds leaves the cells 15 under the action of the ejectors 16 and fall along a certain trajectory at an angle to the furrow. At the same time, the seeds do not roll out. Seeds are rolled out from the extreme lines across the furrow, since the seeds move from the cells along a path not directed along the line, as to the central line, but across the furrow.

 The trajectory of movement and rolling of the seeds depends on the angle of inclination of the cells to the longitudinal axis of the sowing disk or on the angle of inclination of the cells to the longitudinal axis of the cells of the central row of the disk and the force of the ejector on the seeds.

 Free-standing seeds fall closer to the center line, and pinched seeds when sown from the impact of the ejector move further from the center line of the strip. In this case, the seeds are sown in the extreme rows of the strip with an offset relative to the axis of the row.

 Thus, the seeds are sown by the claimed device in three streams in the central dotted line and two extreme dotted lines with an offset from the axis of the line in the transverse direction.

 When implementing the proposed method of sowing seeds and devices for its implementation, a more uniform placement of seeds in the furrow occurs. In this case, the best conditions for the root nutrition of plants are created, and the illumination of plants is also improved. Formed on plants, such as soybeans, additional secondary reproductive organs increase branching and bean formation.

 Due to the displacement (rolling out) of seeds in the extreme lines of the strip in the transverse direction, it is possible to carry out inter-row treatments without traditional protective zones. It is possible to conduct inter-row treatments of crops under the "strip".

Claims (2)

 1. The method of sowing seeds, including the main sowing of seeds in the soil in one flow, one or several pieces, in separate nests at an equal interval, characterized in that the sowing is carried out by creating additional seed flows on both sides of the main stream, and at an angle to the main stream with placement at equal intervals and with different rolling seeds in the furrow relative to the axis of the extreme dashed line.  2. A device for sowing seeds, including a metering device containing a hopper, a reflector roller, a cellular sowing disk in the housing consisting of a base, rings made in the form of parts along the axis of the cells, characterized in that the cells in the extreme rows of rings are made at an angle to the axis of the vertically mounted disk and seed ejectors in the extreme rows are installed at an angle to the cell axes of the central row of the sowing disk.

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