UA9764U - Sowing apparatus - Google Patents

Abstract

A sowing apparatus has a body, on a horizontal shaft of which a feed disk with seed cells on outer cylindrical surface thereof, a seed ejector, a seed bunker and a drive of a sowing apparatus are placed. The feed disk consists of the central cylindrical part, whereon one of the removable rings are fixed, on the outer cylindrical surface of which the seed cells are placed, the distance between which on the outer cylindrical surface of the ring corresponds to the seed sowing rate required. The transmission ratio of the drive of the shaft of the feed disk of a supporting and driving wheel of the sowing apparatus is constant and equals to the ratio of the diameter of the supporting and driving wheel to the diameter of the disk of the sowing apparatus.

Description

Description of the invention

The useful model relates to agricultural machinery, in particular to tools for sowing 2 agricultural crops and can be used in farms.

Well-known seeding devices (A.s. Mo858605 USSR IPC AO1C7/04) are designed for accurate sowing of row crop seeds and have a housing on the horizontal shaft of which is mounted a seeding disc with cells for seeds on its outer cylindrical surface, a hopper for seeds, and a seeding drive the device has a variable transmission from the drive wheel of the seeder. 70 For different rates of sowing seeds, the required speed of rotation of the sowing disc is ensured by means of a gearbox, due to which the required rate of sowing seeds is established. At the same time, in most cases, the tangential speed of rotation does not coincide with the translational speed of movement of the planter. Due to such a mismatch, this speed of rotation of the sowing disc will be greater or less than the translational speed of movement of the seeder. At the same time, when the seeds are pushed out of the cells, they will be under the influence of 12 inertial forces, due to which the seeds will fly away to some distance from the place where they should be sown. As a disadvantage of using these seeding devices, there is a violation of the uniformity of the distribution of seeds along the row, the conditions for germination and further development of plants worsen, and ultimately all this is reflected in the harvest.

The best analogue (prototype) is the well-known sowing device (As. Mo948313 МПК АО1С7/04), which has a body on the horizontal shaft of which is mounted a sowing disk with cells for seeds on its outer cylindrical surface, through the centers of which there is an annular groove, into which from below seeding disk includes a seed ejector fixed to the housing of the seeding device, a seed hopper and a drive of the seeding device through a variable transmission from the support-drive wheel of the seeder. This seeding device also has a disadvantage, which is that for different rates of seeding, the speed of rotation of the seeding disk needs to be changed. At the same time, the tangential speed of movement of seeds will be greater or less than the translational speed of movement of the planter. fri")

At the same time, the seeds fly away and roll away from the designated place of their sowing during accurate sowing. At the same time, the conditions for its germination and further development of plants are violated, which ultimately affects the reduction of the harvest.

The task of a useful model is a seeding device, in which, thanks to the constant speed of rotation of the seeding disc from the support-drive wheel of the seeder, it is possible to carry out sowing with a different rate of sowing seeds Ge) from the cells at zero speed from the bottom of the seeding disc relative to the soil surface. At the same time, the most possible accurate sowing of seeds in a row in the places designated for them is achieved. The solution to the problem is achieved due to the constant transmission from the support-drive wheel of the planter to the shaft of the sowing disk, provided that this (3 constant transmission ratio of the drive transmission is equal to the ratio of the dimensions of the diameter of the support-drive wheel 32 of the planter to the diameter of the seeding disk, which, for example, with a chain transmission corresponds to the ratio of the number of teeth on the sprocket on the axis of the support-drive wheel to the number of teeth of the sprocket on the shaft of the sowing disc. At the same time, in the lower part of the sowing disc, the tangential speed will be equal to the speed of the forward movement of the seeder, and their direction is opposite, due to which the bottom of the sowing disc under time - pushing the seeds out of the cells, the speed relative to the soil surface will be zero. 50 The required rate of seed sowing will be regulated by installing on the central part of the sowing disc with variable rings with different numbers of cells, which differ from each other by different distances between the cells,

From" which characterizes and corresponds to the corresponding seed sowing rate.

The task is solved due to the fact that the seeding device has a body, on the horizontal shaft of which is installed a seeding disc with cells for seeds on its outer cylindrical surface, through the centers of which an annular groove passes, into which a seed pusher attached to the body of the sowing device enters from below. the seed hopper and the drive of the seeding device through the transmission from the support-drive -I wheel of the planter, which differs in that the seeding disk consists of a central cylindrical part, on which one of the replaceable rings is fixed, on the outer cylindrical surface of which there are cells for b seeds, distance between which on the outer cylindrical surface of the ring corresponds to the required seeding rate

Ta» 20 seeds, and the transmission ratio from the support-drive wheel of the planter is constant and equal to the ratio of the diameter of the support-drive wheel of the planter to the diameter of the disc of the seeding device.

Thanks to this constructive solution of the seeding disc and its constant drive in rotary motion, the tangential speed from the bottom of the seeding disc is equal to the translational speed of the seed drill, the goal of accurate sowing of seeds with the required seeding rate at zero speed of seed ejection from

So" cells relative to the soil surface. Thanks to this, the seed falls exactly in the place determined for it and an even distribution of seeds in the row is achieved. At the same time, the best conditions for seed germination and further development and growth of plants are achieved, and in the end, obtaining an increased harvest.

Therefore, thanks to the proposed new technical solution of the design of the sowing device and the drive of its sowing disc, an economic effect is achieved. 60 An example of the proposed useful model of the seeder is shown in the drawing, where Fig. 1 shows a side view of the seeder, Fig. 2 shows an example of attaching one of the replaceable rings to the central cylindrical part of the seeding disc, and Fig. 3 shows a view of the replaceable ring.

The seeding device has a housing 1, in which a central cylindrical part 62 of the sowing disc is mounted on a horizontal shaft 2, on which one of the replaceable rings 4 with cells 5 for seeds is fixed, through the centers of which an annular groove 6 passes, a deflecting roller 7, which repels excess seeds A seed hopper 8 is mounted above the sowing disc with a replaceable ring 4. Under the sowing disc, a seed pusher 9 is installed in the ring groove 6. A coulter 10 is installed below the sowing device, which forms sowing grooves, where the seeds that are dosed from the cells 5 fall and are cultivated with the soil using coulter 10. Fastening of replaceable rings 4 on the central cylindrical part C of the sowing disk is carried out using fastening 11, in this example using bolts.

The proposed device works as follows. During the working passage of the seeder on the field, the sowing disc with fixed one of the required replacement rings 4 with cells 5, the distance between which corresponds to 70 the required rate of sowing, rotates on the shaft 2, which is driven by the supporting and driving wheels of the seeder, for example, by a chain transmission (in the drawing not shown). Surplus seeds are pushed by the roller 7 into the seed hopper 8, and with the help of the ejector 9, which is installed in the annular groove 6 and fixed to the housing 2 of the seeding device, the seeds are pushed into the sowing groove, which is formed by the coulter 10, and is worked with soil.

Of course, depending on the soil, climate and weather conditions and the state of soil fertility, you need 5-7 sets of replacement rings made of the same material as the central cylindrical part of the sowing disc, or of plastic, the physical properties of which correspond to this product.

For sowing other crops that differ in the shape and size of the seeds, the proposed seeding device must have a set of interchangeable rings with the appropriate cell sizes and the required distance between the cells on the outer cylindrical surface of these rings.

Claims (1)

The formula of the invention A seeding device that has a body, on the horizontal shaft of which a seeding disk with cells for seeds is installed on its outer cylindrical surface, through the centers of which there is an annular groove, into which a seed pusher, a seed hopper, fixed to the housing of the seeding device, enters from below - the seeding disk and the drive of the seeding device through the transmission from the support-drive wheel of the planter, which differs in that the seeding disk consists of a central cylindrical part, on which one of the replaceable rings is fixed, on the outer cylindrical surface of which there are cells for seeds, the distance between which on the outer cylindrical surface of the ring corresponds to the required rate of seed sowing, and the gear ratio of the drive shaft and) of the sowing disc from the support-drive wheel of the seeder is constant and equal to the ratio of the diameter chn of the support-drive wheel to the diameter of the disc of the seeding device. (at) . and? se) -i (o) T» 50 So 60 b5