For sowing grain crops on stubble, stubble seeders with tine coulters are used, which perform technological operations in one pass. However, they do not meet the requirements of the agricultural machinery to ensure an even distribution of seeds in the sub-spear space. The subsoil no-drill planting creates the most favorable conditions for growth and development of cultivated crops and at the same time, grain crop yields are increased on average by 10…30%. Using no-drill planting, seeders equipped with spear coulters with spreaders for no-drill subsoil seeding provide the best quality and distribute the seeds evenly over the field. The article proposes the original design of the seed drill coulter for no-drill planting, which provides an even seed distribution over the feeding area. As a result of the theoretical researches the optimal parameters of the diffuser for the grain drill coulter are determined and the dependence between the unevenness on the test parameters of the diffuser and the height of the pendulum spreader, the base diameter are obtained. The purpose of this research is to develop the design and rationale of parameters of the grain drill for subsoil no-drill planting, the use of which will reduce the uneven distribution of grain crops seeds or mineral fertilizer granules.
The article presents theoretical and experimental studies of microstrains and stresses in the details of agricultural machines by the implementation of holography. The expansion of computer holography, associated with the development of optical methods for studying the technical condition of agricultural machinery and their components, is accompanied by significant complications associated with the interpretation of interferograms. An important solution was to investigate the process and the associated appearance of microdeformation fields on the surface of the product without destroying it. In this case, the conditions of the allowable load and, accordingly, the allowable technical condition of the product were created, when the natural sample or the real part was not destroyed, and the hologram was recorded at the time of appearance and development of microdeformations. The hologram reproduced the kinetics of the process in a three-dimensional image, where all the elements of the study were in real time and real size, which made it possible to capture the three components of the microdeformation vector. Such experimental researches for establishment of admissible values of a technical condition were carried out according to the developed technique were carried out for the first time. The use of holography as a means of research allowed to obtain the values of microdeformation in three directions of the vector, as well as to mathematically describe the dependence of these deformations on the coordinates.
The article proposes an original design of the forked working body of a beet harvester designed to dig up roots from the soil, which reduces the damage to root crops through the use of elastic elements in its design, which are rubber studded tires and the creation of an additional digging force acting on them. As a result of the analysis of the work of the proposed design, it was found that when interacting with the root crop, the elastic elements partially cover its surface, while creating an additional digging force. Analytical dependences are obtained, as well as the design and kinematic parameters of the forked working body are substantiated on the average size of the sugar beet root crop, which makes it possible to substantiate the optimal operating modes of the machine, to determine the dependence of the influence of the root crop size and the translational speed of the root harvester on the rotational speed of the tip of the active fork. The calculations showed that with an increase in the operating speed of the machine in the range from 1.0 to 2.0 m/s, it is necessary to ensure an increase in the angular velocity of the rotors ωr in the range from 24 to 57.4 s−1, which corresponds to a change in their rotation frequency from 230 to 554 min−1, which ensures that root crops are not damaged from interaction with working bodies. Given the versatility of the proposed design of the working body and a wide range of harvested root crops, the number of rows of spikes should be taken equal to 18. With an optimal value of the cylinder radius of 0.036 m, the distance between the rows of spikes is 13 mm. Given the presence of soil and plant residues, the height of the elastic spikes, it is advisable to use equal to 5-7 mm
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