RU2036572C1 - Precision seed drill - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: for quality sowing of small seeds the drill comprises seed hopper, blowing device and seed tubes. Metering device has the form of two parallel vertical discs 3 with seed cells. Disc axles are offset from each other and there are rods 4 passing along disc circumferences. Said rods are curved in the form of a crankshaft. Cells 6 at the ends of rods are of a conical shape. Upper parts of seed tubes have the form of funnels 7 arranged underneath the blowing nozzles 8. EFFECT: improved design. 2 dwg

Description

 The invention relates to agricultural machinery and is intended for the precise sowing of small round-shaped seeds (amaranth, rapeseed, clover, turnip, radish, etc.), as well as for the dashed sowing of small seeds of various shapes (black cucumber, carrots, etc.).

 Known precision seeder, which contains a housing-hopper for seeds, a metering disk with cells for capturing seeds, purge devices with a compressed air supply system and seed tubes. The metering disk is placed horizontally on the drive shaft above the base of the hopper. In the disk around the circumference, cells are made through holes, which are traps for capturing seeds. Purge devices are installed above the disk with the seal, and seed tubes of equal length coaxially with the purge devices are installed under the disk. The ends of all the vas deferens end in the same opener and have a common point of intersection of the axes. Blowing devices in the azimuth of the metering disk are offset one from the other and the cells in the disk so that when one of them coincides with the hole-cell in the disk, the others are between the cells. Thus, the seeds from the disk traps are blown alternately into different vas deferens and fall into one coulter and then into the furrow. The device has a high sowing speed, up to 15 km / h, but is suitable and efficient only when sowing large enough seeds. When sowing small seeds for single (dotted sowing), it is necessary to reduce the size of the cell holes in the disk, up to fractions of a millimeter. At the same time, the likelihood of clogging of the holes with foreign impurities, particles of the earth increases significantly. In addition, small seeds may fall into the seal between the purge device and the rotating metering disc and be mechanically injured. All these factors will lead to a large thinning of crops.

 The purpose of the invention is the provision of high-quality sowing of small seeds.

 In FIG. 1 shows one section of a seeder seeder; figure 2 is the same, top view.

 The seeder section contains a housing 1, which is also a seed hopper. In the housing 1, on the axes 2, two sowing discs 3 are mounted parallel to each other. The axes 2 are offset from one another (see FIG. 2). On the circumferences of the disks 3 through the holes passed rods 4, curved in the form of a crankshaft, and the length of the section 5 of these rods is equal to the eccentricity of the axes 2 of the disks 3.

 At the ends of the rods 4 on both sides of the disks 3, funnel-shaped cells 6 are made on their lateral surfaces. Thus, the outwardly extending ends of the rods 4 with cells 6 form two trap systems located on both sides of the disks 3. The diameter of cell 6 should be equal to the average the diameter of the seeds and, therefore, the ends of the rods with cells for different crops should be removable.

 The seed tubes of the seeder (not shown) in their upper part end with funnels 7 reaching the upper edge of the disks 3 and located so that the rods 6 pass over the funnels during rotation of the disks 3. In the same place, directly above the funnels, there are two nozzles 8 of the purge device.

 The purge device is powered from the pneumatic system of the tractor, and for manual seeders from cylinders, rubber balls, etc.

 The device operates as follows.

 The hopper 1 is filled with seeds to a level slightly below the axes 2 of the disks 3. Then, the drive gear is set, which will depend on the required distance between the plants in the row and the speed of horizontal movement of the seeder (i.e., the sowing speed). Rotating, the disks 3 introduce the rods 4 into the mass of seeds. Each stem cell 6 captures only one seed, since its size (diameter and depth) is comparable to the size of the seed. The rods 4 on both sides of the disks 3 during further rotation raise one seed in their cells above the funnels 7 of the vas deferens. Cells 6 of the seed trap are always turned upward during movement; they are not turned over. This mechanism of motion is due to the eccentric displacement of the disks 3 and the curved shape of the rods 4.

 As soon as one of the rods 4 with the cell 6 occupied by the seed approaches the nozzle 8 of the purge device, the seed will blow out from the cell 6 with a stream of air and it will fall into the funnel 7 of the vas deferens. The seed ducts on both sides of the discs 3 can be directed to one opener, which increases the sowing speed, or to separate openers, then sowing from one section of the seeder goes in two rows at once.

 Thus, the principle used in this device to capture one seed per cell, comparable in size to the size of the seed, deliver it in this cell to the sowing zone and use an air stream to blow it into the vas deferens compares the proposed device from the currently known precision seeders seeding for small seeds. The absence of holes through which the seeds are blown and which can become clogged increases the reliability and service life of the seeder. Blowing off the seed from the trap practically negates the adhesion of seeds to the trap even for the smallest seeds and thereby improves the quality of sowing.

 The seeder is very simple to manufacture, has few friction parts, which reduces the mechanical trauma of seeds.

 It is advisable to select the size of the trap cell for each seed variety experimentally. High requirements for surface treatment are imposed only for rod traps with cells; therefore, it is advisable to make them replaceable on any known types of detachable joints of parts.

Claims (1)

 PRECISION SEED SEEDER containing a housing-hopper for seeds, a rotating metering disk with cells for seeds, blowing devices and seed tubes, characterized in that it is equipped with an additional metering disk, while the disks are mounted parallel to each other on horizontal axes eccentrically offset relative to each other and through them skipped rods bent in the form of a crankshaft located around the circumference of the disks, and the cells are made conical at the ends of the rods on both sides of the disks, and the purge devices CTBA located above the vas deferens, the upper part of which is in the form of funnels.