RU153718U1 - COMBINED SEEDER - Google Patents

Abstract

1. Combined seeder, including soil cultivating and sowing parts, providing simultaneously with the processing and sowing the application of mineral fertilizers, characterized in that the distribution of fertilizers along the width of the seeder is carried out using tillage working bodies installed at different depths and self-moving along a cyclic path in the process moving the seeder around the field. 2. Seeder according to claim 1, characterized in that the tillage working bodies are hollow teeth of square or round shape, inclined at an angle of 45 °. 3. The seeder according to claim 1, characterized in that the tillage working bodies loosening the soil to different depths, in the process of adjusting the seeder, can be reset to a different trajectory. The seeder according to claim 1, characterized in that the tillage working bodies, loosening the soil to a depth of seed placement, can additionally be equipped with cutting legs.

Description

The proposed utility model relates to the design of combined seeders for sowing grain and leguminous crops at the same time as cultivating the soil and applying mineral fertilizers.

Known designs of combined seeders, including working bodies for pre-sowing tillage, packer rollers and the sowing part, consisting of bunkers with sowing machines and openers. However, most seed drill designs use pneumatic transportation of seeds and fertilizers from hoppers to coulters.

In known designs can be used one of two schemes for applying mineral fertilizers simultaneously with sowing. The first is when mineral fertilizers are applied together with the seeds through common coulters. The disadvantage of this scheme is the inhibition of seedlings of young plants when using large doses of fertilizer. Since seeds and fertilizers are located in close proximity to each other. The second is when an additional set of coulters is used to make mineral fertilizers. These are, for example, Horsch seeders (ProntoAS model) and others. With this scheme, fertilizers are usually planted several centimeters deeper than the seeds and away from them. The disadvantage of this scheme is the incorporation of fertilizers into the upper layer of the arable layer, which often dries up when there is a lack of precipitation, and thus fertilizers become inaccessible to plants. And the fact that in most models one fertilizer (in row spacing) is installed on two grain openers, because it is impossible to position the fertilizer coulter in each row spacing without significant complication and weighting of the seeder design. Thus, the area of plant nutrition is significantly reduced.

The second feature of combined seeders is the use in the vast majority of models of rotary working bodies for tillage. In Europe, these are spherical disks; in South America, these are corrugated disks - colters. This is explained by the fact that combined seeders were most widely used using minimized tillage, since the combination of a seeder and a presowing tillage tool in one unit reduces its compaction. And rotary working bodies are less clogged with plant debris that accumulate in the upper soil layer when using similar technologies. But it is the disk working bodies that determine the need for separate openers for fertilizing.

There are models with loosening working bodies, for example, seeders manufactured by Agromaster (www.pk-agromaster.ru, model AGRATOR COMBIDISK). Moreover, to exclude clogging of the loosening working bodies with plant residues, they are arranged in four or more rows. Which leads to a heavier structure.

Thus, the systemic disadvantages of the known combined seeders are:

- the introduction of mineral fertilizers in only one layer of soil, mainly the top;

- limited area of plant nutrition, because fertilizers are not distributed over the entire width of the seeder;

- heavy construction weight.

The purpose of the proposed utility model is to eliminate these disadvantages.

The technical result of the utility model is achieved by using loosening working bodies, which are much lighter than rotary ones (per meter of working width). The working bodies are hollow square or round teeth, inclined at an angle of 45 °. Moreover, the teeth that carry out the loosening of the soil to the depth of pre-sowing treatment can be additionally equipped with cutting legs. To eliminate clogging, the working bodies are installed on a self-rotating frame, the rotation of which is provided by the working bodies themselves, due to interaction with the soil when moving the seeder as a result of their asymmetric installation. The working bodies have the ability to be reinstalled at different distances from the center of rotation of the frame. This changes the trajectory of their movement and the intensity of impact on the soil. As a result of a constant change in the direction of movement of the working bodies, a systematic self-cleaning of the working bodies takes place. In addition, due to a more complex trajectory of movement (cycloid), each of the working bodies processes a large area compared to moving rectilinearly. This allows you to reduce by 25% the number of working bodies used, which means the weight of the structure and the likelihood of clogging. The application of mineral fertilizers is carried out through the loosening working bodies with the help of the air flow created by the seeder sowing system. This ensures their uniform distribution over the entire width of the drill. In addition, at the intersection of the trajectories of individual working bodies, there is an additional mixing of mineral fertilizers with the soil, which improves their distribution over the area. Fertilizing through tillage tools eliminates the need for specialized fertilizer coulters. In addition, loosening working bodies are installed (or can be installed) at different depths of soil cultivation, which allows you to make mineral fertilizers in different layers of the soil, including deeper ones.

The presented figures depict schemes of the proposed seeder. In FIG. 1 - top view (without fertilizer and grain boxes). In FIG. 2 - view from the side. Separate positions indicate: 1 - seeder frame with support wheels and a towing device; 2 - self-rotating frames of the working bodies (in Fig. 1 are shown in the embodiment of rotation to meet each other); 3 - working bodies that process and fertilize the topsoil; 4 - working bodies that process and fertilize the lower soil layer (if necessary, the working bodies can be interchanged, or set with alternating depth); 5 - packer rollers; 6 - grain openers; 7 - mineral fertilizer hopper with sowing systems; 8 - grain hopper with sowing devices.

Claims (4)

1. Combined seeder, including soil cultivating and sowing parts, providing simultaneously with the processing and sowing the application of mineral fertilizers, characterized in that the distribution of fertilizers along the width of the seeder is carried out using tillage working bodies installed at different depths and self-moving along a cyclic path in the process moving the seeder across the field. 2. The seeder according to claim 1, characterized in that the tillage tools are hollow teeth of square or round shape, inclined at an angle of 45 °. 3. The seeder according to claim 1, characterized in that the tillage working bodies loosening the soil to different depths, in the process of adjusting the seeder, can be reset to a different trajectory. 4. The seeder according to claim 1, characterized in that the tillage working bodies, loosening the soil to a depth of seed placement, can be additionally equipped with cutting legs.

Images