UA69916U - Tillage machine - Google Patents

Abstract

A tillage machine comprises a frame, a mechanism for connecting to an energy supply, a mechanism for depth regulating, disk working members fastened on the frame and located on individual posts, and a roll.

Description

The useful model belongs to agricultural engineering, in particular, to tillage units.

The combination of surface tillage operations and the wrapping of plant remains helps to activate their decomposition and is a prerequisite for increasing the biological activity of the soil and, as a consequence, a high future harvest. The possibility of ensuring a reduction in the period of decomposition of residues contributes to the additional improvement of the biological activity of the soil and the increase of the harvest.

The design of the disc tillage unit is well-known, consisting of a frame, a mechanism for connecting the power source, a mechanism for adjusting the depth, fixed to the frame of disc working bodies on individual racks and a roller.

When working, the disk working bodies break up the surface horizon of the soil, with plant remains present on it, shift and mix it, and at the same time wrap up the plant remains. The roller combines the operations of compaction, formation of a fine-fraction surface layer of the soil, and leveling.

The disadvantages of the operation of such a tillage unit are that it ensures long-term decomposition of plant residues, during which the nitrogen available in the soil is consumed, which leads to the subsequent insufficient consumption of it by cultivated plants. The elimination of this deficiency is provided by the preliminary application of nitrogen fertilizers or microbiological destructors to the soil, which accelerate the decomposition of residues. This requires two passes of different units - a sprayer and a tillage unit. At the same time, there are technological gaps that reduce the efficiency of decomposition of residues, the inconsistency of different units in terms of the width of the grip, as well as the irrational use of additional energy resources.

The useful model is based on the task of improving the tillage unit to reduce the time of the residue decomposition process, eliminate technological gaps in the application of fertilizers and microbiological destructors and their wrapping in the soil, agree on the width of the application of fertilizers and microbiological destructors, save energy and increase the yield.

The essence of the useful model is to place in front of the tillage unit with action across its entire width of grip nozzles connected by liquid mains with a capacity installed on the frame, equipped with a mechanism for regulating the supply of working fluid based on nitrogen fertilizers

Zo or microbiological destructors with its drive from an energy source.

The possibility of performing the task is illustrated in Fig. 1 and Fig. 2.

The solution to the technical problem is schematically shown in Fig. 1 and Fig. 2, which shows the tillage unit, which includes a frame 1, a mechanism for connecting to an energy source 2, a mechanism for adjusting the depth 3, disk working bodies fixed on the frame 4, placed on individual racks 5, rollers b, rod 7, nozzles 8, liquid line 9, capacity 10, mechanism for adjustable supply of working fluid 11, drive 12.

The technical result is explained in Fig.2. At the same time, the nozzle 8, installed in front of the frame 1 with the possibility of adjustable supply of the working fluid, applies it to the surface of the soil with existing plant remains. In the future, the disk working bodies would chip the surface horizon treated with drugs with the existing remains, move it, mix them, wrap the remains in the soil. The roller partially compacts the soil, ensures the formation of a fine fractional surface layer of the soil and levels the surface. In this way, treatment of plant remains with a working liquid and prompt and thorough wrapping in the soil contributes to their rapid decomposition.

Therefore, the proposed technical solution of the tillage unit allows to solve the task of improving the tillage unit by providing it with shortened terms of the process of decomposition of residues, eliminating technological gaps in the application of microbiological destructor fertilizers and their wrapping in the soil, coordinating the width of application and wrapping, saving energy resources, increasing the future harvest.

Sources of information: 1. Protocol Me01-53-54-56 of the state acceptance tests of the AGD-2,1 soil tillage disk unit; AGD-4.5; AGD-5,6. Research, 2007.

Claims (1)

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