In the “Q-factor” laboratory of the Don State Technical University, seeding planters are created with the original design of sowing devices, using modern materials and technologies. The design of a row seeding planter is considered, which allows coordinating the speed of the seed and the speed of the unit for a better sowing process. A new classification feature in the design of the row precise seeding planter is designated - the height of the sowing device from the bottom of the furrow. The characteristic features of the constructions of serial seeding planters on the basis of the aforecited feature were identified and analyzed. The rationale for the need to improve the technological process of sowing seeds of row crops by serial seeding planters is given. The problem is indicated, which is the lack of automation in controlling the precision sowing process during the operation of the seeding planters. A functional diagram and design of a sowing device with a seed tube is proposed, in which the ability to control the flight speed of seeds directly during sowing is implemented. A setup for testing the sowing device is presented with the aim of increasing the accuracy of determining the parameters of the operating modes of the sowing device of precise seeding planters in laboratory conditions. The results of laboratory experiments are obtained, which makes it possible to judge the possibility of controlling the speed of seeds directly during sowing process.
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