RU2124826C1 - Seeding unit for pneumatic drill - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: seeding unit has hopper with debris plates movable one with respect to another. Seeding unit has flat seeding disk positioned in horizontal plane and replaceable ring. Seeding unit housing is provided with ejector and conveyance channels connected with seed guides. Conveyance channels are inclined to horizontal plane. Number of rows and lines depends on number of slots in replaceable ring. Axes of seed guides and conveyance channels are offset one with respect to another. Such construction allows adjustable multiple-row and multiple-line seeding to be effectuated. EFFECT: increased efficiency, wider operational capabilities and enhanced reliability in operation. 8 cl, 6 dwg

Description

 The invention relates to agricultural machinery, in particular to sowing devices of pneumatic seed drills.

 Known pneumatic seeder containing a storage hopper, a compressed air supply system, a metering device with a horizontal disk with guide plates, a cone guide and slotted outlet openings associated with seed tubes and openers (SU, auth. St. 923409, class A 01 C 7 / 04, 1982).

 Also known is a seeder with a pneumatic sowing device of multi-row sowing containing a hopper for seeds with an unloading neck, a housing with a seed and pressure chambers and a sowing element mounted on a vertical axis, a supercharger connected by an air duct to the pressure chamber, a seed chamber, a drive of the sowing element and connected to by the sowing apparatus through the transporting and ejector collecting channels, the vas deferens, which, in turn, are connected to the coulters (SU, ed. St. 1253450, class A 01 C 7/04, 1986).

 The disadvantages of this seeder include a violation of the quality of sowing during prolonged operation of the device due to the fact that dust and other weed impurities are pumped through a blower and air duct onto a perforated mesh separating the seed and pressure chambers, resulting in a decrease in the total cross section of the holes and, as a result, the amount of excess pressure in the seed chamber decreases, which leads to a violation of the stability of the filling of the seed cells of the sowing element and a decrease in the seeding rate. This is especially characteristic when sowing small seeds (0.4-1.7 mm), since the holes of the perforated mesh cannot exceed the size of the seeds.

 In addition, the cells of the sowing element themselves must be smaller than the smallest seeds in size, and during prolonged use they also become clogged.

 In the design under consideration, the ejector extraction and conveying channels are arranged horizontally; at reduced revolutions of the tractor engine, the supercharger may not create sufficient air pressure and the seeds will linger in the conveying channels, which also reduces the sowing rate. This design does not provide devices for delaying debris entering the hopper into the seed chamber.

 For sowing various crops, varying the row and row seeding requires a large number of sowing elements, which also relates to design flaws.

 The present invention was developed with the aim of providing high-quality controlled multi-row sowing of seeds of crops with different seed sizes.

The essence of the invention lies in the fact that the housing of the sowing apparatus has a lid, and the hopper is freely mated with the latter and is equipped with at least two perforated trash-holding plates mounted with the possibility of moving relative to each other, the holes of which are comparable with the cross section of the largest sown seeds, while the sowing element made in the form of a flat disk with a thickening around the circumference and is equipped with a guide plate and located in the same plane and associated with it a removable ring, seven the nascent chamber is separated from the pressure head by a solid partition, the lid is arranged to move vertically relative to the housing and the working surface of a flat sowing disk with the formation of an annular gap between the disk and the lid, a braking rib is freely installed inside the lid, and the axes of the transporting channels are located at an angle to the horizontal plane exceeding the angle of friction of the movement of seeds on the plane, and the axis of the seed tubes and transporting channels are offset relative to each other. In addition, the hopper is interfaced with the housing cover by an elastic element, the thickening along the edge of the planter sowing disk is made in the form of a cone with an angle of 40 - 45 ^o , facing the center of the disc, the guide plate of the flat disc is installed at its edge and is located at an angle of 40 - 45 ^o to the radius of the disk circumference, the braking rib is freely installed relative to the housing cover in the diametrical plane of the seed chamber and perpendicular to the surface of the flat disk with the formation of a gap between them, the number of grooves of the interchangeable ring of the flat disk is there must be at least one, but not more than the number of transporting channels of the sowing apparatus, the number of which is the same as the ejector sampling channels, equal to the larger number of sowing rows in one pass of the seeder, and finally, the axis of the seed tubes and transporting channels are displaced in the vertical plane relative to each other each half the difference in their inner diameters.

 The hopper is freely interfaced with the cover of the metering unit body with an elastic element, so that when the hopper is fixedly mounted on the frame, the housing cover can be moved relative to the hopper and the metering unit body to set the seed rate.

 The sowing element is made in the form of a flat disk and is equipped with a conical thickening along its edge and a guide plate, which ensures uniform distribution of seeds along the periphery of the disk. The seed chamber is combined with the pressure chamber and is separated from it by a solid partition, in contrast to the well-known trellised one, which is often clogged, which impairs the quality of seeding. Separation of the seed and pressure chambers with a continuous baffle and the supply of compressed air only to the pressure chamber and further into the transporting channels create more favorable conditions for the delivery of seed to the sowing coulters, since compressed air entering the pressure chambers into the transporting channels creates in the channels connected to them ejector channels, the ejection conditions, due to which the seeds are pulled through the grooves of the interchangeable ring and the annular gap between the metering disk and the cover into the conveying channels and under the pressure of the air sent to openers. The case of the sowing apparatus is equipped with a cover that can move vertically relative to the working surface of the sowing disk with the formation of an annular gap between them. Inside the lid, in the diametrical plane of the seed chamber, a braking rib is installed freely, which is located perpendicular to the surface of the seed disk with the formation of a gap between them. This creates additional conditions for uniform distribution of seeds on the surface of the disk. The flat sowing disk is equipped with a removable ring with grooves located in the same plane with the disk, which provides the necessary rowing and row seeding. The axis of the vas deferens are offset in the vertical plane relative to the axes of the conveying channels by half the difference in their diameters. Due to this, elevated ejection zones are created in the mating sections of the ejector and conveying channels. The seed hopper is equipped with at least two perforated trash-holding plates, the holes of which are commensurate with the cross section of the largest sown seeds, and the plates themselves are movable relative to each other and are designed to protect the seed chamber from foreign impurities.

 The presented set of features in comparison with the prior art allows us to conclude that this technical solution has novelty and has an inventive step.

 In FIG. 1 shows a pneumatic seeder, general view; in FIG. 2 - section of the sowing device of an air seeder with a hopper; in FIG. 3 - site selection and transportation of seeds; in FIG. 4 - sowing disk: 4a - side view, 4b - top view; in FIG. 5 - interchangeable rings: 5a - for five-line four-row sowing, 5b - for single-line four-row sowing; in FIG. 6 - trash-holding plates: 6a - with combined cells, 6b - with displaced cells.

The sowing device of a pneumatic seeder contains a hopper for seeds 1, the housing 2 of the sowing device with a sowing element made in the form of a flat sowing disk 3 mounted on a vertical axis 4 with a drive 5 from the supporting wheel of the seeder. An air blower 6 driven by a tractor power take-off shaft (not shown) is connected by an air duct 7 to the pressure chamber 8. The coulters 9 are connected by the seed tubes 10 to the sowing apparatus. The hopper 1 is made with an unloading neck in the form of a cylindrical nozzle and is coupled to the cover 11 of the metering body 2 by an elastic element 12. The flat metering disk 3 has a thickening along the edge of the circle in the form of a cone 13 with an angle of 40 - 45 ^o , facing the center of the disk and provided with a guide plate 14, mounted at its edge and located at an angle of 40 - 45 ^o to the radius of the disk. The seed chamber 15 is combined with the pressure chamber 8 and is separated from it by a continuous partition 16, the cover 11 has the ability to move vertically relative to the housing 2 and the working surface of the flat metering disk 3 with the formation of an annular gap between the disk 3 and the cover 11. Inside the cover 11 is freely installed braking rib 18. The latter is installed in the diametrical plane of the seed chamber and perpendicular to the surface of the flat seed disc with the formation of a gap between them. The sowing disk is freely interfaced with an interchangeable ring 19 having grooves 20. The housing 2 is made with ejector sampling channels 21 introduced through the grooves 20 of the interchangeable ring 19 into the seed chamber 15 and transporting channels 22 connected on one side to the vas deferens 10, and on the other hand with a pressure chamber 8. The axes of the conveying channels 22 are inclined relative to the horizontal plane and exceed the angle of friction of the movement of seeds 25 along the plane. The hopper is equipped with two perforated trash-holding plates 23 with holes 24.

 The sowing device of a pneumatic seeder operates as follows.

 Depending on the required row and severity of the sowing culture, a replaceable ring 19 is installed in the seed chamber 15 with the required number of grooves 20. Depending on the size of the sown seeds 25, the relative position of the holes 24 of the trash-holding plates 23 is established in order to ensure free flow of the sown seeds 25 in seed chamber 15 and large impurities were retained. Next, using the cover 11 of the sowing apparatus, the necessary gap 17 is established between the sowing disk 3 and the end face of the cover, depending on the size of the sown seeds.

 When the support wheel of the seeder is rolled across the field through the drive 5, the sowing disk 3 starts to rotate, through the plates 23 from the hopper 1 seeds 25 cleared of debris enter the seed chamber 25. The sowing disk 3, rotating, grabs the seeds with the guide plate 14 and evenly distributes them across the periphery of the disk and the annular gap 17. Seeds from the annular gap 17 fall into the grooves 20 of the removable ring 19 and then into the ejector sampling channels 21. Under the influence of their own weight and the additional effect of ejection, the seeds fall into the conveyor the feeding channels 22 and under pressure of air are forcibly transported through the vas deferens 10 to the openers 9. The installation of the transporting channels 22 at an angle to the axis of the sowing disk exceeding the angle of friction of the seeds on the plane creates favorable conditions for self-cleaning of the transporting channels and vas deferens, including short-term violation of the normal operation of the supercharger 6.

 This design of the sowing device of a pneumatic seeder provides guaranteed high-quality adjustable multi-row sowing of seeds of various crops with different sizes.

Claims (8)

 1. The sowing device of a pneumatic seeder, including a hopper for seeds, the body of the sowing device with a sowing element mounted on a vertical axis driven by a running wheel, the seed and pressure chambers combined, the last of which is connected by an air duct to an air blower having a drive from the tractor power take-off shaft, and the coulters connected by the vas deferens through the transporting and ejector-collecting channels to the sowing apparatus, characterized in that the housing of the sowing apparatus has an ayshka, and the hopper is freely interfaced with the latter and is equipped with perforated trash-holding plates mounted with the possibility of moving relative to each other, the holes of which are commensurate with the cross section of the largest sown seeds, the sowing element is made in the form of a flat sowing disk with a thickening along the edge of the circle and is equipped with a guide plate and located in the same plane and interchangeable with an interchangeable ring, the seed chamber is separated from the pressure solid partition, the lid is made with possible with the ability to move vertically relative to the housing and the working surface of a flat sowing disk with the formation of an annular gap between the disk and the cover, a braking rib is freely installed inside the cover, and the axes of the transporting channels are located at an angle to the horizontal plane exceeding the angle of friction of the seeds moving along the plane, and the axis of the seed tubes and transporting channels are offset relative to each other in a vertical plane.  2. The apparatus according to claim 1, characterized in that the hopper is paired with a housing cover with an elastic element. 3. The apparatus according to claim 1, characterized in that the thickening along the edge of the circumference of the planter sowing disk is made in the form of a cone with an angle of 40 - 45 ^o , facing the center of the disk. 4. The apparatus according to claims. 1 and 3, characterized in that the guide plate of the planter sowing disk is installed at its edge and is located at an angle of 40 - 45 ^o to the radius of the circumference of the disk.  5. The apparatus according to claims 1 and 2, characterized in that the braking rib is freely installed relative to the housing cover in the diametrical plane of the seed chamber and perpendicular to the surface of the planter sowing disk with a gap between them.  6. The apparatus according to claims 1 and 5, characterized in that the number of grooves of the removable ring of the planter sowing disk must be at least one, but not more than the number of transporting channels of the case of the sowing apparatus.  7. The apparatus according to claims 1 and 6, characterized in that the ejector sampling and transporting channels are made in an amount equal to the larger number of sowing rows in one pass of the seeder.  8. The apparatus according to claims 1, 6, 7, characterized in that the axes of the vas deferens and the conveying channels are offset in the vertical plane relative to each other by half the difference of their internal diameters.

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