RU2283567C1 - Apparatus for charging of seeds into drills - Google Patents

Abstract

FIELD: agricultural engineering, in particular, equipment for charging hopper of seeding units with seeds, such as cereal, grain-and-fertilizer seeding units, as well as fertilizer seeding units, and simultaneously for treating seeds.

SUBSTANCE: apparatus has hopper mounted on chassis and equipped with horizontal screw-type discharge conveyor. Charging screw-type conveyor is operatively connected with horizontal discharge screw-type conveyor. Charging conveyor is mounted for rotation in vertical plane. Charging apparatus is also equipped with seed treating device. Seed treating chamber is positioned at the end of screw-type discharge conveyor. Seed treating nozzles are fixed within seed treating chamber arranged circumferentially of screw in plane perpendicular to screw axis. Throat of charging screw-type conveyor is disposed under discharge window of screw-type discharge conveyor. Also, seed treating device is provided with two nozzles arranged circumferentially of screw, in spaced apart relation and in the plane perpendicular to axis of screw at an angle of 60 deg from its vertical axis. Spiral coiling of screw overlaps discharge window opening by 1/4 t, where t is spiral coiling pitch of screw-type conveyor. Additional seed treating nozzle is positioned within charging conveyor at a distance of 1.5-2.0 t from its leading end.

EFFECT: increased efficiency and uniform seed treatment in the process of charging seeds in seeding units.

5 cl, 6 dwg

Description

The invention relates to agricultural machinery, and in particular to devices for loading seeds of hoppers of sowing apparatuses, in particular grain, grain-fertilizer and fertilizer seeders.

There are known designs of various seed hopper loaders. But the most advanced are loaders with screw conveyors. For example, the seeder loader is known (description of the invention to the USSR copyright certificate No. 1296027 of 10/31/1985, 7 A 01 C 7/00). This seed and / or fertilizer loader is aggregated with a dump truck. It includes a tailgate equipped with a longitudinal discharge opening in the lower part, an unloading screw conveyor, the V-shaped casing of which with its open part is combined with the tailgate discharge hole. In addition, it includes a loading screw conveyor, the discharge window of which is provided with a sleeve. The unloading and loading auger conveyors were driven by hydraulic motors included in the hydraulic system of the seeder loader. The unloading auger conveyor is equipped with a reloading unit. The case of the transshipment unit is made closed in the form of a cochlea and is connected to the V-shaped casing of the discharge screw conveyor by means of a hinge. The loading auger conveyor is attached to the case of the reloading unit of the unloading auger conveyor through an adapter pipe through a hinge with the possibility of rotation in a vertical plane. The hinge for turning the case of the reloading unit is made in the form of two annular supporting elements, one of which is mounted on the transitional flange of the V-shaped casing of the unloading screw conveyor. Another annular support element is mounted on the body of the transshipment unit. In this case, the supporting ring elements with liners made of antifriction material are covered by an external split ring. The hinge for turning the loading auger conveyor in a vertical plane has a similar design solution. The reloading unit with the screw conveyor installed on it is connected to the V-shaped casing of the unloading screw conveyor with the possibility of angular rotation in a swivel around the longitudinal axis of the shaft of the unloading screw conveyor by means of a drive mechanism. The drive mechanism is made in the form of a cable block system, the flexible connection of which is thrown through a series of bypass blocks. One end of the flexible connection is fixed to the body of the reloading unit, and the other end of the flexible connection is mounted on the fixed frame of the vehicle with a shift towards the cab relative to the axis of the hinge of lifting the body by an amount equal to the distance from the point of attachment of the end of the flexible connection to the body of the reloading unit to the axis of rotation . The bypass blocks of the cable block system are located on the body from the outside and along the body. In this case, the first bypass unit is installed on the rear side of the seeder loader above the rotation axis of the unloading screw conveyor unloading unit, and the last bypass unit of the cable block system is installed on the bottom of the body above the place of flexible connection to the seeder loader frame. The bypass block is tensioned. The distance from the fastening point of the extreme bypass block mounted on the bottom of the body to the axis of the hinge for lifting the body and the distance from the fastening point of the first bypass block mounted on the rear side of the seeder loader to the pivot axis of the reloading unit of the unloading screw conveyor are equal to each other and equal to the distance from the place attaching the end of the flexible connection to the body of the reloading unit to the axis of rotation of the latter. The loading screw conveyor was transferred from the transport position to the working one and vice versa by means of a worm gearbox equipped with a manual drive and a chain transmission. The worm gear is self-braking and mounted on the free end of the body of the reloading unit of the unloading screw conveyor, the drive chain sprocket mounted on the output shaft of the worm gear and the driven sprocket on the adapter pipe of the loading screw conveyor. In the transport position, the loading auger conveyor is located along the tailgate next to the unloading auger conveyor and is laid on brackets, and secured with clamps. The flexible connection of the cable block system is equipped with a stop element, which is fixed in the area between the tension bypass block and the rear side bypass block. The thrust element is fixed on a flexible connection with a horizontal arrangement of the body of the seeder loader, and next to the catcher of the thrust element. In turn, the catcher is made in the form of a U-shaped bracket with a hole and mounted on the bracket of the bypass unit. A flexible connection is freely passed through the hole of the catcher, while the hole is made with a smaller diameter than the outer diameter of the thrust element. But the described seeder loader is structurally very complicated, unreliable in operation, and also unsafe from the standpoint of labor protection for staff. This is explained, first of all, by the complexity of the seeders of the cable block system used in the design of the described loader. In addition, the cable block system of the seeder loader is extremely unreliable in operation and this is due primarily to the failure of the cables as a result of their breakage during operation, as well as the failure of the blocks themselves. This, in turn, negatively affects the safety of staff. At the same time, in the case of the formation of the sowing unit in a checkerboard pattern with this design of the seeder loader, it is impossible to fully load the hoppers of all seeders in the seeder due to a mismatch in the departure of the loading conveyor.

Also known is a seed loader in seeders (description of the invention to copyright certificate No. 1454291 of 05/18/86, 7 A 01 C 7/00). In the design of this seeder loader, an attempt was made to increase the reliability of the previous seeder loader, as well as to increase the safety of staff. The goal was partially achieved as follows. Since when a flexible connection of a cable-block system is broken, its segment instantly locks in the trap hole, and the segment is fixed on a relatively small portion of the cable travel length, the loading screw conveyor under the action of gravity of its own weight practically does not rotate in the articulation around the horizontal axis of the discharge screw shaft conveyor and, accordingly, in this case does not commit angular movement in space from a vertical position to an inclined one. This, in turn, eliminates the causes of a traumatic situation on the part of the loading auger conveyor when the flexible connection of the cable block system is broken and, therefore, safe working conditions are provided for the maintenance personnel when performing production operations for loading mineral fertilizers into grain and fertilizer seeders. In addition, due to the reduction of dynamic movements from the side of the loading screw conveyor, the maximum effect of reducing dynamic loads in the structural elements of the loading and unloading screw conveyors and in their hinges is ensured, which increases the operational reliability of the seeder loader as a whole. The transfer of the loading screw conveyor of the seeder loader from the working inclined position to the transport (lowering) position in this design was carried out by rotating the handle of the manual drive through the worm gear and chain transmission, while the loading screw conveyor, turning in the swivel of the adapter pipe of the reloading unit, fits onto the brackets along the tailgate parallel to the unloading screw conveyor, after which the loading screw conveyor is secured with a clamp at. But nevertheless, although the design of the described loader is more reliable and safer than the previous analogue described above, in practice, the seeder loader does not satisfy the requirements of reliability and safety. Yes, and the structural complexity of the seed drill loader, due to the presence of a cable block system, does not allow the widespread use of this seed loader.

A seeder loader is also known (description of the invention to copyright certificate No. 1565377 of 07.25.88, 7 A 01 C 7/00). And in this design of the seeder loader, an attempt was made to increase the reliability of the seeder loader, as well as to increase the safety of staff. But the goal was only partially achieved. This seeder loader contains a self-propelled chassis, as well as a body pivotally mounted on the frame, in the lower part of the rear side of which there are unloading and loading auger conveyors. The loading auger conveyor has a loading sleeve, which is mounted to rotate in a vertical plane, and the unloading and loading auger conveyors are interconnected via a reloading unit with the possibility of angular rotation around the longitudinal axis of the shaft of the unloading auger conveyor by means of a drive mechanism made in the form of a cable block system. A flexible connection of the drive mechanism is fixed at one end to the reloading unit, and at the other to the frame of the self-propelled chassis, while on the rear side of the loader the catcher is rigidly fixed, equipped with a stop element for jamming the flexible connection when it is broken and the bracket pivotally mounted on the catcher with a bypass block, spring-loaded relative to the body of the catcher. The catcher is equipped with two thrust elements, which are made in the form of a body of revolution with a cylindrical outer surface and are installed in cylindrical bores of the catcher’s body on opposite sides of the flexible connection, the longitudinal axes of the thrust elements are parallel to each other and lie in a plane perpendicular to the axis of the through hole, and annular grooves with an eccentrically located working surface are made on the outer surface of the thrust elements, each of which covers a flexible connection in the zone of the through holes, while the thrust elements are equipped with a mechanism for their counter-synchronous angular rotation around their longitudinal axes, and one of the thrust elements is kinematically connected through a lever and flexible rod to the rotary bracket of the bypass block of the catcher. In addition, the mechanism of synchronous angular rotation of the stop elements is made in the form of gear sectors interacting with each other, each of which is mounted on the end part of the said stop elements from the outside of the catcher. At the same time, the working part of the eccentrically located annular grooves of the thrust elements is made in the form of a Dupin cycloid surface. But although the seed loader in the seeders of this design is more advanced than the above counterparts, nevertheless, it has inherent disadvantages, which today are important. One of them is the inability to use the seed loader in their seeders for their dressing. It is known that seed dressing is preferably carried out immediately before planting, that is, before loading them into the hoppers of the seeders. This is due, in particular, to the inefficiency of their pickling in the warehouse due to interruption in time of a single technological process. It is also associated with safety issues arising from the work of loading, unloading, moving staff who have been treated with pesticides.

Also known is a seed loader in seeders (description of the invention to copyright certificate No. 155353 of 02/06/1962, 7 A 01 C 7/00). This seed loader in the seeders contains a device for seed dressing, which consists of a housing in the form of a cylindrical container with its conical bottom. A horizontal cylindrical casing of the discharge vane auger conveyor is attached to the conical bottom. Powdered pesticides from the tank through an opening in its bottom part enter the discharge screw conveyor, which moves them to the hatch with an adjustable shutter. The through hole of the hatch is installed using a screw. A pipeline with an obliquely cut end is attached to the flange of the hatch for uniform feed of pesticides to the inclined auger conveyor of the forklift. The discharge screw conveyor of the seed dressing device receives rotation from the elongated shaft of the horizontal screw conveyor of the forklift. To prevent the formation of pesticides in the bottom of the seed dressing device, a agitator is provided. The agitator is made in the form of a wire arc and receives oscillatory motion from the crank of the unloading screw conveyor using a connecting rod and rocker arm. The capacity of the seed dressing device is covered by a spring-loaded lid. A seed dressing device with a bracket is attached to the inside of the front side of the forklift hopper. For better adhesion of pesticides to grain, it is advisable to moisten the latter a little. To do this, a water tank with a crane is installed on the hopper of the forklift truck. This design of the described seed loader is more advanced in relation to the solution of the task. Its main advantage, if we compare the described design of the seed loader in the seeders with the above counterparts, is the presence in the design of the device for seed treatment. But the seed dressing ratio in this design does not exceed 90%. This is explained by the lack of mixing of the array of seeds to be treated, as a result of which the treatment is carried out with "pieces" of the array: in one area an excess of toxic chemicals is accumulated, and in the other its lack. In this case, such a technique used in this analogue as wetting the seeds does not lead to a positive result. An attempt to introduce a seed wetting apparatus into the design of the seed loader also did not lead to a positive result, but only complicated the design of the loader itself. The design of the seed loader in the seeders was also complicated by the presence of a agitator mechanism designed to prevent arch formation in the bottom of the tank for seed dressing. In addition, the known device for seed dressing, which is used in this design of the seed loader in the seeders, is problematic from the standpoint of safety personnel, as it is designed to work with powdered pesticides.

Also known is a seed loader in seeders (description of the invention to the USSR copyright certificate No. 191929 of 01/23/1964, 7 A 01 C 7/00). The seed loader in the seeders, given in the description to the named copyright certificate, is the closest in combination of essential features to the claimed invention (prototype). This seed loader in the seeders contains a hopper installed in the car body. In the middle part of the hopper there is a receiving chamber, which is fed by a pair of screw conveyors. Screw conveyors are located along the longitudinal axis of the hopper and their ends are introduced into the lower part of the receiving chamber. The middle part of the receiving chamber is in communication with the loading auger conveyor, ending with a telescopic sleeve, introduced into the hoppers of the seeders. In the upper part of the chamber is a device of known design for seed dressing. The device for seed dressing introduces chemicals into the receiving chamber in dry or semi-dry form, as well as, as necessary, biological products, micronutrient fertilizers and growth stimulants. Under one of the inclined halves of the bottom of the hopper there is a fluid supply unit with a pump driven by a vehicle power take-off shaft. The output end of the loading auger conveyor is equipped with a rotary head for attaching a telescopic sleeve. The design of the described seed loader in the seeders is the most advanced in comparison with the previous analogues described above. But it does not fully meet the requirements of today. In particular, the seed dressing ratio in this design is only 88-92%. This is primarily due to the uneven treatment of the entire mass of seeds loaded into the hopper of the seeders. The reason for this is the very principle of seed dressing, in which the flow of pesticides into the moving seed flow from above. And this fundamentally cannot lead to a significant positive result. As a result, due to insufficient mixing of the seed array, the pickling occurs in "pieces". An overabundance of pesticides accumulates in one area, and its deficiency in another. In this case, does not lead to a positive result and such a technique used in the prototype as wetting the seeds. An attempt to introduce a seed wetting apparatus into the design of the seed loader also did not lead to a positive result, but only complicated the design of the loader itself. In addition, the known device for seed dressing, which is used in the seed loader in the seeders, is problematic from the standpoint of safety personnel, as it is designed to work with powdered pesticides.

The task set by the developers of the new design of the seed loader in the seeders was to create a loader that would, during its operation, increase the seed dressing coefficient before planting, and also simplify the design of the loader itself and increase the safety of maintenance personnel. The technical result achieved in the process of solving the problem posed to the developers was the possibility of seed dressing directly in the process of feeding them, and the uniformity of seed dressing increased.

The essence of the invention lies in the fact that in the seed loader in the seeders, which includes a hopper mounted on the chassis with a horizontal discharge screw conveyor, functionally connected with it and mounted in a vertical plane, the loading screw conveyor, as well as a seed dressing device, at the end of the discharge screw conveyor designed seed dressing chamber, in which there are nozzles for seed dressing, located around the circumference of the screw in the plane, perpendicular axis of the screw, and the neck of the loading auger conveyor is located under the discharge window of the unloading auger conveyor.

In addition, the essence of the invention lies in the fact that in the seed loader in the seeder the nozzles of the seed dressing device are arranged uniformly around the circumference of the screw conveyor.

However, the essence of the invention lies in the fact that in the seed loader in the seeders in the device for seed dressing there are two nozzles located around the circumference of the screw in a plane perpendicular to the axis of the screw and at a distance of 60 ° from its vertical axis.

In addition, the invention consists in the fact that in the seed loader in the seeders the spiral winding of the screw overlaps the opening of the discharge window by 1 / 4t, where t is the step of spiral winding of the screw conveyor. At the same time, the essence of the invention lies in the fact that an additional nozzle for seed dressing is installed in the seed loader in the seeders in the loading conveyor at a distance of 1.5-2.0t from its beginning, where t is the step of spiral winding of the screw conveyor.

Evidence of the possibility of implementing the inventive seed loader in seeders with the implementation of this purpose is given below on a specific example of a seed loader in seeders. This characteristic example of the implementation of a specific seed loader in the seeders according to the invention does not in any way limit the scope of its legal protection. In this example, only a specific illustration of the proposed seed loader in the seeders is given.

The invention is illustrated graphically, where:

figure 1 schematically shows a loader of seeds in seeders, side view;

figure 2 is the same, a top view;

figure 3 - system of levers for opening and closing the hatch, dashed lines show the system in the open state;

figure 4 - movable shutters to control the flow of seeds into the unloading horizontal auger;

figure 5 - device for seed treatment;

Fig.6 is a view aa in Fig.5.

The seed loader in the seeders consists of a hopper 1, at the bottom of which a horizontal screw conveyor 2 is mounted, designed for unloading seeds from the hopper 1. The horizontal auger conveyor 2 is functionally connected to an inclined auger conveyor 3, designed to load seeders bins. The step of spiral winding of the unloading horizontal screw conveyor 2 and the step of spiral winding of the loading inclined screw conveyor 3 are equal. The screw conveyor 3 is rotatable, thanks to its installation on the turntable 4. Structurally, the hopper 1 is mounted on the frame 5. The frame 5 in this particular case is made of welded channels, but in principle it can be of any design. The frame 5 rests on the axis 6, on which two wheels are mounted using bearings 7. The rigid coupling 9 is made integral with the frame 5 and ends with a coupling ring 10, which serves to connect the seedloader to a traction device, for example, a tractor. In the front of the frame, a shoe 11 is mounted below, designed to install the seed loader in a horizontal position in the idle state. The bunker 1 of the seed loader in the seeders consists of the lower part - the frame 12 and four panels: the front 13, the back 14 and two side 15. The roof 16 is installed at the top of the bunker. At the end of the horizontal auger conveyor 2 an unloading window 17 is made, and at the beginning the screw conveyor 3 is provided with a loading neck 18. At the end of the screw conveyor 3, an unloading window 19 is made 19. Two lights 21 are installed on the frame 5 on its rear bumper 21. The lights 21 receive electricity via cable 22 from the plug 23. The loading hatch 24 is mounted on the roof 16 b unker 1. The loading hatch 24 consists of two covers: the right 25 and the left 26. The kinematically right cover 25 is connected through the system of levers 27 to the helm 28. The left cover 26 is similar to the right 25, but already through the system of levers 29 it is connected to the helm 28 The drive of the horizontal screw 2 is carried out through the friction clutch 30, which is dressed on the axis of the screw and is safety. The friction clutch 30 is kinematically coupled to a chain gear 31 having a drive 32 and a driven 33 sprockets, as well as a tensioning device 34. The drive sprocket 32 is rigidly mounted on the shaft 35 and kinematically connected through a rigid clamping sleeve 36 with the driven shaft 37 of the single-stage gearbox 38. The drive shaft 39, the gearbox 38 is connected through a cardan drive 40 to a power take-off shaft (PTO) of a vehicle, such as a tractor. Inside the lower part of the hopper 1, on the frame 12, above the horizontal screw conveyor 2, shutters 41 are installed, which are movable. The drive of the inclined screw conveyor 3 is carried out from the axis of the horizontal screw conveyor 2 through the cardan drive 42. Kinematically, the cardan drive 42 is connected to the drive shaft 43 of the inclined screw 3. At the end of the drive shaft 43 is mounted a chain gear 44, consisting of a drive sprocket 45, worn on the drive shaft 43, and a driven sprocket 46, worn on the axis of the inclined screw 3. The hydraulic device 47 of the inclined loading auger conveyor 3 is designed to rotate, depending on the need, for example, in transport position or for loading seed drums. The flaps 41 are mounted movably on an additional frame 48, which in turn is mounted on the frame 12 of the hopper 1. Screw pairs 49 are used to control the flaps 41. The thrust 50 of the screw pair 49 is pivotally mounted on the flap 41, and its nut is mounted on the frame 12 of the hopper 1. The seed loader is equipped with a seed dressing device, which consists of a pump 51, a tank 52 for a solution of pesticides, a fixed pipe 53. A shut-off valve 54, a distributor 55 and three flexible pipelines 56 are mounted on the pipe 53. Flexible pipelines s 56 are connected to nozzles 57. Winding horizontal unloading auger 2 Unloading it overlaps the window 17 by 1/4 pitch winding screw conveyor. Thus, the designed space limited by the casing of the horizontal discharge screw 2 and the neck of the loading screw 3 is an etching chamber 58. In this particular example, two nozzles 57 are installed in the etching chamber 58, but their number may be different. The two nozzles 57 are located in a plane perpendicular to the axis of the screw, at a distance of 60 ° from the vertical. But the nozzles can be located evenly around the circumference of the screw. The third additional nozzle 57 for seed dressing is installed at a distance of 1.5-2.0 steps of spiral winding of the screw, counting from the beginning of the loading screw. The pump 51 is driven by a belt drive through a drive pulley 59, which is mounted on the counter-drive shaft 35 and connected via a belt 60 to the pulley 61 of the pump 51.

The seed loader in the seeders works as follows. Using a vehicle, such as a tractor, the seed loader in the seeders is adjusted to the seed warehouse prepared for planting. Then, using the steering wheel 28 and the lever system 27 and 29, open the right 25 and left 26 of the cover of the loading hatch 24. The process of filling the hopper 1 with seeds prepared for planting is carried out either by a special device, such as a grain-thrower, or a universal device, such as a bucket mounted on a tractor . After filling the hopper 1 with seeds by the steering wheel 28 and a system of levers 27 and 29, close the right 25 and left 26 of the cover of the loading hatch 24. In the seed warehouse, the tractor operator simultaneously with the loading of seeds into the hopper 1 also refills the tank 52 of the device for etching with a solution of toxic chemicals. Then, using a vehicle, such as a tractor, the seed loader in the seeders is sent into the field to the sowing unit. At the sowing unit using a hydraulic device 47 and a turntable 4 from the cab of the vehicle loading auger conveyor 3 is transferred from the transport position to the working. For this, the loading auger conveyor 3 is installed so that its discharge window 19 is located above the hatch of the seeder hopper of the sowing unit. After that include the power take-off shaft (PTO) of the vehicle. Thus, the rotation from the PTO is transmitted through the cardan drive 40, the gearbox 38, the clamping clutch 36, the chain gear 31 and the friction clutch 30 to the axis of the horizontal discharge screw conveyor 2. The seeds located in the hopper 1 under the influence of their own weight through the slot adjusted by the shutters 41 pass to the unloading horizontal screw conveyor 2 and occupy the space between its winding. Thus, from the hopper 1, the seeds are fed by the spiral windings of the horizontal discharge screw conveyor 2 to the discharge window 17. From the discharge window 17, the seeds are fed to the dressing chamber. The process of seed dressing begins almost at the moment of turning on the tractor's PTO. This process is as follows. Seeds by means of winding of the horizontal discharge screw conveyor 2 are fed into the pickling chamber 58. In the pickling chamber 58, the seeds rush down under the action of inertia and gravity. At this moment, they are irrigated with a solution of pesticides by nozzles 57 installed in the pickling chamber. It was experimentally established that when the grain falls, the most effective irrigation of seeds is with pesticides. This is explained by the fact that the seeds in the dressing chamber due to this design are irrigated at the time of fall. In addition, irrigation occurs on two sides. However, since the pesticide solution is supplied through nozzles 57 under a pressure of 2.3-3.0 atmospheres, almost the entire mass of seeds passing through the etching chamber is etched 59. The mixing of seeds also contributes to the effective etching of seeds passing through the etching chamber at the time of their fall. The seeds, passing the dressing chamber, through the neck 18 fall into the feed screw conveyor 3. At this time, the feed screw conveyor 3, rotating, moves the seeds in the direction of its discharge window 19, mounted above the seeder hopper of the seed unit. The third nozzle supplying a solution of pesticides is mounted on the casing of the loading screw conveyor 3 at a distance of 1.5-2.0 steps of winding the screw conveyor. This is necessary to achieve a more uniform moistening of seeds with a solution of pesticides. Thus, moving further along the loading auger conveyor 3, the seeds, being mixed many times, are sent to the unloading window 19 uniformly etched. All of the above creates an effective and guaranteed seed treatment. This is confirmed experimentally. It was found that the seed dressing at the discharge window is 98-99%, while when using the prototype this indicator is only 88-90%. The supply of seeds to the horizontal discharge screw conveyor 2 is controlled by shutters 41 using screw pairs 49 and rods 50. The flow rate of the pesticides solution is controlled by a shut-off valve 54. In addition, the flow of the pesticides solution is carried out in concert with the seed supply, since both processes and the process of supplying seeds to the chamber etching 58, and the process of supplying therein a solution of pesticides under pressure is carried out from the tractor PTO. With an increase or decrease in the tractor PTO revolutions, an increase or decrease in the passable mass of seeds, as well as the supply of a solution of pesticides for seed dressing, occurs. After loading the hopper of the first seeder, the flow of pickled seeds is stopped. To do this, turn off the PTO of the vehicle and change the position of the seed loader in the seeders to load the second seeder. The process of loading the second seeder is similar to the process of loading the first. This continues until the hopper of the last seeder of the sowing unit is loaded.

Claims (5)

1. The seed loader in the seeders, including a hopper mounted on the chassis with an unloading horizontal screw conveyor, functionally connected with it and mounted in a vertical plane, the loading screw conveyor, as well as a seed dressing device, characterized in that at the end of the unloading screw conveyor a seed dressing chamber is constructed, in which nozzles for seed dressing at the time of their fall are installed, located around the circumference of the screw in a plane perpendicular hydrochloric screw axis and the loading mouth of a screw conveyor disposed under the unloading window unloading screw conveyor. 2. The seed loader in the seeders according to claim 1, characterized in that the nozzles of the seed dressing device are arranged uniformly around the circumference of the screw conveyor. 3. The seed loader in the seeders according to claim 1, characterized in that in the device for seed dressing there are two nozzles located around the circumference of the screw in a plane perpendicular to the axis of the screw at an angle of 60 ° from its vertical axis. 4. The seed loader in the seeders according to claim 1, characterized in that the spiral winding of the screw overlaps the opening of the discharge window by ¼ t, where t is the step of spiral winding of the screw conveyor. 5. The seed loader in the seeders according to claim 1, characterized in that an additional nozzle for seed dressing is installed in the loading conveyor at a distance of 1.5-2.0 t from its start, where t is the step of spiral winding of the screw conveyor.

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