RU2354098C1 - Seed drill - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: seed drill consists of a seed bin, dosing unit, seed box, jet, delivery line, drill tube. The seed box is made in the form of a cylinder, the diametre of which equals four outer diametres of the jet. The ratio of outer and inner diametres of the jet is 3/1. The jet is placed in a way that its reference axis and reference axis of the seed box fit between each other.

EFFECT: evenness and rate of seeding.

1 dwg

Description

The invention relates to the forest industry. By author St. No. 1349711, АСС 7/04 a pneumatic seeder sowing apparatus is known, including a pneumatic chamber with an outlet and a conveying nozzle. In the lower part of the pneumatic chamber there is a longitudinally movable duct with clamps. In the upper wall of the duct, metering nozzles are made in the form of inclined slots. The axes of the slots intersect at one point on the horizontal axis of symmetry of the outlet. The movable duct is in communication with the conveying nozzle and the channel. The outlet from the pneumatic chamber is connected to the coulter group using the vas deferens. The principle of operation of the sowing apparatus is based on the movement of seeds from the zone of increased pressure of the pneumatic chamber, formed with the help of air flows created by the metering nozzles when excess pressure is supplied to them, into the zone of action of the transport stream. The conveying nozzle ejects the seeds into the outlet of the pneumatic chamber. The disadvantage of this device is that the reliable performance of the sowing apparatus depends on the accurate calibration of the seeds, their moisture content and the uniformity of the weight indicators of the sown seeds.

According to patent No. 2279779, АСС 7/04 (prototype), a sowing device is known, which includes a seed hopper, a metering device, a seed box, a nozzle, a feed pipe, and a seed tube. The nozzle is located in the seed box so that its edge coincides with the vertical axis of symmetry of the hopper. The disadvantage of this device is that the seed box has a rectangular cross section and a curved shape of its bottom, which causes a decrease in uniformity and seeding rate. The decrease is due to the fact that part of the seeds remains in the seed box due to friction in the corners of the seed box and the zone of reduced pressure in its concave part. As a result, the device ceases to work, because the seeds are filling the volume of the seed box.

The technical task of this invention is to ensure uniformity and rate of seeding.

The technical task is achieved by the fact that the sowing device, including the seed hopper, metering device, seed box, nozzle, feed pipe, seed tube, in which according to the invention the seed box is made in the form of a cylinder, the diameter of which is equal to the size of the four outer diameters of the nozzle, and the ratio the outer and inner diameters of the nozzle is 3/1, and the nozzle is located so that its axis of symmetry and the axis of symmetry of the seed box coincide.

The difference between the present invention and the prototype is that the seed box is made in the form of a cylinder, the diameter of which is equal to the size of the four external diameters of the nozzle, and the ratio of the external and internal diameters of the nozzle is 3/1, and the nozzle is located so that its axis of symmetry and axis symmetries of the seed box coincide. As a result of the fact that the seed chamber has a cylindrical shape, the ratios of the diameter of the seed chamber, the external and internal diameters of the nozzle are selected, as well as due to the coaxial placement of the nozzle in the seed box, the seeds falling into it are completely transported by the flow of air moving at speed vas deferens.

The drawing shows the design of the sowing device.

The sowing device comprises a seed hopper 1, a metering device 2, a seed box 3, a nozzle 4, a supply pipe 5, a seed pipe 6 (not shown).

The sowing device operates as follows.

After the supply of overpressure begins through the supply pipe 5, an air stream with a speed of V _p begins to exit the nozzle 4 located in the seed box 3. As a result of the difference between the working pressure of the air leaving the nozzle 4 and the pressure of the seed stream leaving the hopper 1 through the metering device 2, the seeds are drawn into the air stream. Seed box 3 has a cylindrical shape and an inner diameter (D _ext ), the value of which is equal to four external diameters of the nozzle (d _external ). Moreover, the ratio of the outer diameter of the nozzle 4 to the inner d _outer / d _ext is 3/1 and the nozzle is located so that the axis of symmetry of it and the seed box 3 coincide with each other. As a result of experimental studies found that the data ratio of the diameters of seed box (D _app), external (d _ext) and internal (d _BH) nozzle diameters most rational for uniform distribution of pressure generated in the seed box air jet exiting the nozzle at a speed V _n . Due to the fact that the seed chamber is cylindrical in shape, the ratios of the diameter of the seed chamber, the external and internal diameters of the nozzle are selected, also due to the coaxial placement of the nozzle in the seed box, the seeds falling into it are completely transported to the vas deferens by the flow of air moving at a speed of V _p 6.

Claims (1)

The sowing device, including the seed hopper, metering device, seed box, nozzle, feed pipe, seed tube, characterized in that the seed box is made in the form of a cylinder, the diameter of which is equal to the size of 4 external diameters of the nozzle, and the ratio of the external and internal diameters of the nozzle is 3/1, and the nozzle is located so that its axis of symmetry and the axis of symmetry of the seed box coincide with each other.