RU210275U1 - Seed sowing device - Google Patents

Abstract

The device for sowing seeds refers to the field of agricultural engineering, in particular to devices for uniform sowing of seeds by grain-grass seeders. The technical result of the technical solution is to ensure the uniformity of sowing across the width of the seeder during its curvilinear movement while maintaining the quality indicators of seeds. This is achieved by the fact that in the device for sowing seeds, including a seed hopper, two groups of sowing devices, presented in the form of coils with grooves, mounted on drive shafts in the order of increasing number of grooves, the drive shafts are kinematically connected with different running wheels of the seeder, while sowing units of different groups form pairs of coils, where the total number of grooves for each pair remains constant and the coils in the pair complement each other. Metering units with the same number of grooves are equidistant from the running wheels, while the metering unit coils on the drive shafts are mounted close to each other, ensuring continuous sowing. An elastic element is mounted above the coils, which prevents arbitrary spillage of seeds and their damage. 4 ill.

Description

The utility model relates to agricultural engineering and can be used for sowing bulk materials, such as seeds, solid mineral fertilizers, granular herbicides, etc.

A grain seeder is known (Agricultural and reclamation machines - M.: Kolos, 1994, - 751 p. Klenin N.I., Sakun V.A.), containing a mechanical sowing machine of the reel type. The drive of the shaft of the sowing unit with grooved coils is made from the support-drive wheels of the seeder. The overrunning clutch of the drive mechanism ensures the rotation of the metering unit shaft from the support-drive wheel, which moves at a higher speed. Such a sowing unit allows the seeder to work only in a straight line. The indicator of seeding unevenness between devices with curvilinear movement of such a seeder significantly exceeds the normative data.

The closest solution to the proposed utility model is the sowing system of the seeder (AS SU No. 1299533, A01C 7/16, 1987), containing a seed hopper, two groups of sowing machines mounted on drive shafts, kinematically connected with different running wheels of the seeder , and seed ducts. The sowing machines of different groups are combined into pairs, each of which has a common funnel, and the sowing machines in pairs are equidistant from the running wheels.

A disadvantage of the known device is that the sowing machine of the seeder performs row sowing with damage to the seed in the sowing machine and an insufficiently high rate of sowing uniformity with the curvilinear movement of the sowing unit.

An analysis of known solutions has shown that a technical problem in this area is the need to expand the arsenal of tools to improve the quality of the seeding process with a curvilinear movement of the sowing unit.

The technical result of the utility model is to increase the uniformity of sowing across the width of the seeder during its curvilinear movement while maintaining the quality indicators of seeds.

To solve this problem and obtain the claimed technical result in a device for sowing seeds, including a seed hopper, two groups of sowing machines, presented in the form of coils with grooves, mounted on drive shafts in the order of increasing number of grooves, the drive shafts are kinematically connected to different running wheels seeders, while seeding units of different groups form pairs of coils, where the total number of grooves for each pair remains constant and the coils in the pair complement each other. Sowing units with the same number of grooves are equidistant from the running wheels, while the metering unit coils on the drive shafts are mounted close to each other, ensuring continuous sowing. An elastic element is mounted above the coils, which prevents arbitrary spillage of seeds and their damage.

The claimed technical solution is illustrated by drawings, which show:

fig. 1 - shows a diagram of the sowing system of the seeder, top view;

fig. 2 - sowing units in a pair, side view;

fig. 3 - diagram of sowing with different shafts per unit of time with a straight-line movement of the seeder;

fig. 4 - diagram of sowing with different shafts per unit of time when the seeder moves along an arc.

The device for sowing seeds consists of a hopper 1 for seeds, the first shaft 2 of the sowing machine, which is kinematically connected with the running wheel 3 of the seeder, the second shaft 4 of the sowing machine, which is kinematically connected with the running wheel 5 of the seeder, coils 6 with grooves mounted on shafts 2 and 4, in ascending order by the number of grooves, while the sowing machines of different groups form pairs of coils 6, where the total number of grooves for each pair remains constant and the coils 6 in the pair complement each other, the sowing machines with the same number of grooves are equidistant from the running wheels 3 and 5, while the coils 6 of the sowing units on the drive shafts 2 and 4 are installed close to each other, ensuring continuous sowing, an elastic element 7 is mounted above the coils 6, which covers part of the coil 6 and prevents arbitrary spillage of seeds and their damage.

The device works as follows. When the seeder moves across the field, the rotation from the wheels 3 and 5 is transmitted to the shafts 2 and 4 with seeding units, the coils 6 of which are assembled on each shaft in ascending order, for example, the number of grooves and fit snugly to each other. The elastic element 7 is adjacent to the coils 6 and keeps the seeds in the hopper 1 from spilling out when the seeder is stopped or reversing. When the seeder moves forward, the rotation from the drive wheels 3 and 5 is transmitted to the shafts 2 and 4 of the sowing machines with coils 6. When the coils 6 rotate relative to the fixed elastic element 7, the seeds that have fallen into the grooves are released from the action of the elastic element 7 and fall to the surface soil, making a continuous sowing of seeds while maintaining their sowing conditions. Coil 6 farthest from the drive wheel on the shaft of the sowing unit has the smallest number of grooves, and the closest coil to the drive wheel has the maximum number of grooves. Consequently, the metering coils of each shaft form seed streams of different sizes. Moreover, these flows vary linearly. The total number of grooves of a pair of coils of the first and second shaft, sowing seeds on the soil surface, is the same for all pairs of coils of the sowing machine. In rectilinear motion, the wheels of the seeder 3 and 5, and consequently, the shafts 2 and 4 of the sowing machines rotate at the same angular speed. In this case, the sowing of each pair of coils 6 of the seeding units are equal to each other. When the seeder moves along an arc, the wheels rotate at different angular speeds. The shafts of the sowing machines have different angular speeds and therefore the sowing of each pair of coils 6 of the sowing machines per unit of time is different. Moreover, the smallest seeding of a pair of coils 6 of the seeding units closest to the support-drive wheel moving along a smaller radius, and the seedings of the remaining pairs increase linearly in proportion to the distance from the pair of machines with the smallest seeding. In this case, the seedings of each pair per unit of distance traveled are equal to each other. This ensures uniform sowing of seed material on the soil surface during the curvilinear movement of the seeder, and the consistent arrangement of the coils on the shaft without breaks contributes to continuous sowing.

Compared with the prototype, the proposed device ensures uniform sowing across the width of the seeder during its curvilinear movement while maintaining the quality of the seeds.

Claims (1)

A device for sowing seeds, containing a hopper for seeds, two groups of sowing machines, made in the form of coils with grooves, mounted on drive shafts, kinematically connected with different running wheels of the seeder, in order of increasing number of grooves, while the sowing machines are combined in pairs and equidistant from running wheels, characterized in that the coils of the sowing units on the drive shafts are installed close to each other to ensure continuous sowing, while an elastic element is mounted above the coils to prevent arbitrary spillage of seeds and their damage.

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