RU2781010C1 - Vacuum seed meter - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to agricultural engineering, in particular to seeding machines for precision seeding. The vacuum sowing device contains a housing with a coil installed in it on a horizontal shaft with elements made on its cylindrical surface for capturing seeds in the form of rows of cone-shaped recesses, a reflector located at an acute angle to the tangent circle of the cylindrical surface of the coil, and a seed tube. Inside the coil, vacuum radial channels and a wheel-shaped cavity are made, communicated with each other and with the coil shaft. The shaft is made hollow and outside has a square cross section. The shaft is equipped with a pipeline connected at one end to the ejector, which ensures the creation of a vacuum, and at the other end to the exhaust pipe of the energy carrier. At the same time, a rubberized pressure plate is installed under the reflector, the free end of which is made in the form of a wedge for cleaning the cone-shaped recesses from unfallen seeds. To create the necessary clamping force, a spring is installed in the lower part of the pressure plate.

EFFECT: invention makes it possible to improve the uniformity of seeding.

1 cl, 3 dwg

Description

The invention relates to agricultural engineering, in particular to seeding machines for precision seeding.

Known breeding sowing apparatus for spot sowing of seeds, which contains a frame mounted on a chassis, a loading funnel is placed on top of the frame, under which the seed pipe is located, through it the seeds enter the corresponding sowing devices located below the frame. Each sowing unit of a disc design is equipped with an unsown seed unloading unit and furrow forming devices for placing the sown seeds in them and closing the furrows after sowing seeds in them, as well as a press roller. The operator’s workplace is located on the frame, including a seat in front of which a desktop is mounted on the frame for placing seed material on it and a control panel (regulation) for the seed sowing process (Patent RU 2735271 C1, class A01C 7/16, 2020).

The disadvantage of the known design is the complexity of its manufacture, a large number of seed tubes, the lack of a single hopper for seed, low productivity, the need for a large number of staff.

Known reel sowing apparatus, containing a housing with a coil installed in it on a horizontal shaft with elements made on its cylindrical surface for capturing seeds in the form of rows of cone-shaped recesses, a reflector located at an acute angle to the tangent circle of the cylindrical surface of the coil, and a seed tube. At the bottom of the body with an inclination, gutters are made according to the number of rows. Seeds are fed through the gutters into the receiving window of the ejector, consisting of an air duct and a seed duct (Patent RU 2231247 C2, class A01C 7/04, 2004 - prototype).

The disadvantage of this reel sowing machine is the complexity of the design due to the presence of an air duct, which has no functional significance due to the fact that the seeds, rolling down the chute under their own weight, fall into the seed duct anyway, and the effect of air on them only increases the force acting on them, as a result, part of the seeds will inevitably receive mechanical damage due to impact on the walls of the seed tube and each other due to the increased force acting on them. Another significant drawback is the lack of high partitions between the chutes and the seeding spool, as a result, when the seeder moves, part of the seeds supplied by the spool will fall into another chute, and the seeding uniformity in the rows will be disturbed, this will especially affect when working on hilly terrain.

The technical result is to increase the efficiency of sowing seeds due to their uniform distribution over the field during sowing and increase productivity by providing a sufficient nutrition area for an individual plant.

The technical result is achieved by the fact that in a vacuum seeding apparatus containing a housing with a coil installed in it on a horizontal shaft with elements made on its cylindrical surface for capturing seeds in the form of rows of cone-shaped recesses, a reflector located at an acute angle to the tangent circle of the cylindrical surface of the coil, and the seed tube, according to the invention, vacuum radial channels are located inside the coil, a wheel-shaped cavity communicated with each other and with the coil shaft, which is made on the outside with a square cross section, and inside has a through longitudinal round hole and is equipped with a device for creating a vacuum, consisting of a pipeline with an ejector, at the same time, the pipeline is connected at one end to a round longitudinal hole of the shaft, and at the other - to an ejector, which is installed on the exhaust pipe of the energy carrier, and under the reflector there is a rubberized pressure plate, the free end of which is located above the seed tube and is made in the form of a wedge for cleaning cone-shaped recesses from seeds that have not fallen out, and a spring is installed in the lower part of the pressure plate to create the necessary clamping force.

The novelty of the proposed technical solution is due to the fact that due to the design features, an increase in the efficiency of sowing seeds is ensured due to their uniform distribution during sowing.

All of these differences make it possible to ensure high seeding uniformity in general, especially at low seeding rates of small-seeded crops, as well as when working on slopes.

The essence of the invention is illustrated in the drawing, where in Fig. 1 schematically shows the proposed vacuum seeding apparatus, side view; in fig. 2 - seeding coil in section, side view; in fig. 3 vacuum supply scheme.

Vacuum seeding apparatus includes a housing 1 with a coil 3 installed in it on a horizontal shaft 2 with elements made on its cylindrical surface for capturing seeds in the form of rows of cone-shaped recesses 4, a reflector 5 located at an acute angle to the tangent circle of the cylindrical surface of the coil 3. Inside it vacuum radial channels 6 are located, a wheel-shaped cavity 7 communicated with each other and with the coil shaft 2, which is made on the outside with a square cross section, and inside has a through longitudinal round hole 8 and is equipped with a device for creating a vacuum (Fig. 3), consisting of a pipeline 9 with an ejector 10. The pipeline 9 is connected at one end to a round longitudinal hole 8 of the shaft 2, and at the other end to the ejector 10, which is installed on the exhaust pipe 11 of the energy carrier (not shown in the figure). Under the reflector 5 there is a rubberized pressure plate 12, the free end of which is located above the seed tube 13 and is made in the form of a wedge 14 for cleaning the cone-shaped recesses 4 from seeds that have not fallen out, and to create the necessary pressing force, a spring 15 is installed in the lower part of the pressure plate 12.

The operation of the vacuum seeding machine is carried out as follows. Seeds from the hopper 1 flow by gravity into its lower part, where a seed reflector 5 is installed, which does not allow the seeds to remain at rest and constantly moves them down, where they fall into the cone-shaped recesses 4 of the metering wheel 3 and are held by a vacuum, which is created by supplying it from the ejector 10 further along the radial channels 6 and the wheel-shaped cavity 7, and enters the cone-shaped recesses 4. Next, the seeds, having reached the lower position of the seeding coil 3, are dropped using the wedge 14 of the pressure plate 12 or due to the action of their own gravity. After that, the seeds go to the seed tube 13.

Claims (1)

Vacuum seeding machine, containing a housing with a coil installed in it on a horizontal shaft with elements made on its cylindrical surface for capturing seeds in the form of rows of cone-shaped recesses, a reflector located at an acute angle to the tangent circle of the cylindrical surface of the coil, and a seed duct, characterized in that inside the coil, vacuum radial channels and a wheel-shaped cavity are made, communicated with each other and with the coil shaft, which is made on the outside with a square cross section, and inside has a through longitudinal round hole and is equipped with a device for creating a vacuum, consisting of a pipeline with an ejector, while the pipeline is one its end is connected to a round longitudinal hole of the shaft, and the other end is connected to an ejector, which is installed on the exhaust pipe of the energy carrier, and under the reflector there is a rubberized pressure plate, the free end of which is located above the seed tube and is made in the form of a wedge for cleaning the cone various recesses from unfallen seeds, and to create the necessary clamping force, a spring is installed in the lower part of the pressure plate.

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