RU2060619C1 - Seeding mechanism - Google Patents

Abstract

FIELD: agriculture; row crop seeding machines (water melons, corn, beet). SUBSTANCE: seeding mechanism has hopper 1 with seeding port 2 furnished with paddle agitator 8 and seeding member, both installed on horizontal shafts. Mechanism has seed drop tube 9 and water feed pipeline 12. It has additionally nozzle 11 connected with water feed pipeline 12. Nozzle is located coaxially with seed drop tube 9 above seeding member made in form of disk 3 with projections forming cells 6 for seeds. Seeding mechanism provides both metered delivery of water and germinated seeds without damaging the seeds. EFFECT: provision of good sprouts in early time. 1 dwg

Description

 The invention relates to agriculture, namely, machines used for sowing row crops (melons, sunflowers, corn and beets).

 Currently, for sowing row crops, for example, gourds, seeders SBI-3, SBU-2-4A, SPCh-6M or SUPI-8 are used, in which sowing machines with mesh discs of various thicknesses and cell parameters allowing sow the seeds of gourds and other crops. For similar purposes, pneumatic-type sowing machines are used, in which the seeds are sucked into the holes on the drum and transferred to the dropping zone under the influence of the vacuum formed inside the sowing device (see the Handbook on Industrial Technology for Vegetable Production. Edited by N. E. Rudenko and L.S. Zemlyanova, M. Agroproizdat, 1986, p. 87, 229).

 Known sowing machines cannot be used for germinated seeds simultaneously with water, because they are injured and clogged cells.

 Hydraulic sowing devices are known in which sowing drums with suction holes are used, equipped with seed ejectors (see automatic certificate SSSR N 1507234, class A 01 C 7/04).

 When using these devices, trauma of germinated seeds is also observed. In addition, the devices are complex in terms of design, because they contain a pneumatic system, which often fails.

 The closest technical solution, the prototype, is a hydraulic seeder for autosvid. USSR N 1297745, class A 01 C 7/00), containing a hopper for seeds and liquid, in which a paddle mixer, a sowing hole, sowing elements and pipelines are placed. Moreover, in order to reduce trauma to the germinated seeds, the hopper is divided by partitions into sections, the bottom of each of which in the longitudinal section has the shape of an isosceles triangle facing downward.

 In this apparatus, due to the constant presence of seeds in the liquid, it is impossible to provide their necessary dosage during sowing, in addition, the design of the drum and sowing elements is complicated.

 The objective of the invention is to create a simple design solution and operating conditions for the sowing apparatus, which makes it possible to use germinated seeds without injuring them for sowing by the tape method, providing the required dosage of both seeds and water.

 To solve the problem, the sowing apparatus containing a seed hopper with a sowing window, equipped with a mixer mounted on a horizontal shaft, a rotating metering element, the seed tube and the water supply pipe, is additionally equipped with a nozzle connected to the water supply pipe, located coaxially with the seed tube above the protruding from a sowing window with a sowing element made in the form of a disk with protrusions forming a cell for seeds.

 A feature of this device is that a directed water jet performs the function of a seed ejector, washing them out of cells whose sizes ensure that no more than 2 seeds are placed in them, which ensures their necessary dosage, due to the sowing step. At the same time, water without injuring the seeds transfers them to moist soil, which creates favorable conditions for mass germination within 7-9 days after planting. The installation of the nozzle eliminates the need to install additional devices for ejecting seeds, complicating the design of the hopper and other elements of the apparatus.

 The drawing shows a General view of the sowing apparatus.

 The sowing apparatus comprises a seed hopper 1, on the lateral surface of which there is a sowing window 2, in which a drive sowing disk 3 is mounted on the shaft 4. The disk is made with protrusions 5 forming cells 6 for germinated seeds. Cell size is determined by seed fractions. So, for example, for melon seeds 10-12 mm in size, the cell size is 12-14 mm. With a significant change in the seed fraction, another disk with appropriate cell sizes can be installed. In other words, depending on the sowing culture and sowing rate, discs with appropriate cells and a rotation speed that changes by rearranging or changing the sprockets on the drive shaft (not shown) are used. The disk of the sowing apparatus is driven from the drive wheels of the seeder by means of a gear mechanism (not shown in the drawing). The shaft 4 of the disk is connected via a chain drive to a horizontal shaft 7 on which a blade mixer is mounted 8. Above the disk 3, a nozzle 11 is mounted coaxially to the vas deferens 9 on the metal straps 10 and connected to the water supply pipe 12 from the reservoir 13, which can be mounted on seeder frame or tractor. The sowing device can be installed on seeders of the type SPCh-6M, cultivators KRN-5,6, which are aggregated with tractors MT3-80, DT-74-75.

 The device operates as follows.

 When the seeder is moved, the rotation from the support-drive wheels is transmitted simultaneously to the shafts 4, 7 transmitting rotation to the agitator 8 and to the sowing disk 3, the protrusions of which capture pre-germinated seeds of row crops placed in the hopper 1. Due to the rotation of the disk 3, capture occurs seeds with protrusions 5 and moving them under a stream of water flowing out of the nozzle 11. A jet of water washing off the seeds from cells 6 transfers them under the opener of the seeder (not shown in the drawing).

 The use of the sowing apparatus of the proposed design allows the use of mechanized sowing of previously germinated seeds of row crops without injuring them. Using water at the same time as sowing will ensure the maturation of gourds 3-4 weeks earlier than using traditional technology and reduces the costs of weeding by 2-3 times, and mass simultaneous ripening allows the use of machine harvesting.

Claims (1)

 A metering device comprising a housing in which a metering disk with cells, a seed tube and a nozzle for supplying water coaxially with the seed tube mounted above the metering disk, are installed on the horizontal drive shaft, characterized in that the cells are made along the entire perimeter of the metering disk, the latter being installed with a gap relative to the body of the vas deferens and nozzle.