Principles of Forming Machine and Technology Systems for Integrated Mechanization and Automation of Technological Processes in Crop Production

It is noted that the urgent need for improving the country's food supply, expanding the range of field crop cultivation led to the shift from the development of single machines to creating machine systems, that is, complexes of well-balanced, coordinated integrated technologies and technical means. (Research purpose) To determine the principles of forming a machine and technology system, that reflect the state and development of mechanized and automated processes of agricultural production in certain periods of the country economy development. (Materials and methods) It is found out that for achieving this goal, it was necessary to fundamentally change the approach to creating new machines and equipment, to shift from the segmental development of single, unrelated machines to creating technical complexes, well-balanced and coordinated technically and technologically, and able to perform full cycles of work on cultivating a wide range of crops, in other words, to start creating Machine Systems. (Results and discussion) It is identified that during the implementation of the Machine Systems, there were created effective complexes of agricultural machinery in our country: high-speed arable and tilled tractors of various classes, self-propelled grain and forage harvesters, and other important types of agricultural machines. (Conclusions) It is proved that the continuously developing scientific and technical potential ensured the solution of major national economic problems, including the creation of Machine Systems. It is established that as the Machine Systems evolved, priority was given to improving reliability, safety, energy and resource saving, power/weight ratio, expanding functionality, multiplicativity, improving operators’ working conditions, quality of work, unifying components, and further increasing productivity.

1. VIM: istoriya mekhanizatsii (1930-2005 gg.) [VIM: Mecha­nization history (1930-2005)]. Moscow: VIM. 2005. 504 (In Russian).

2. Lobachevskiy Ya.P., Tsench Yu.S., Beylis V.M. Sozdanie i razvitie sistem mashin i tekhnologiy dlya kompleksnoy mekhanizatsii tekhnologicheskikh protsessov v rastenievodstve [Creation and development of systems for machines and technologies for the complex mechanization of technological processes in crop production]. Istoriya nauki i tekhniki. 2019. N12. 46-55 (In Russian).

3. Tsench Yu.S. Nauchno-tekhnicheskiy potentsial kak glavnyy faktor razvitiya mekhanizatsii sel'skogo khozyaystva [Scientific and technological potential as the main factor for agricultural mechanization development]. Sel'skokhozyaystvennye mashiny i tekhnologii. 2022. Vol. 16. N2. 4-13 (In Russian).

4. Elizarov V.P., Artyushin A.A., Tsench Yu.S. Perspektivnye napravleniya razvitiya otechestvennoy sel'skokhozyaystvennoy tekhniki [Perspective directions of development of national agricultural machinery]. Vestnik VIESH. 2018. N2 (31). 12-18 (In Russian).

5. Godzhaev Z.A., Shevtsov V.G., Lavrov A.V., Tsench Yu.S., Zubina V.A. Strategiya mashinno-tekhnologicheskoy modernizatsii sel'skogo khozyaystva Rossii do 2030 goda (prognoz) [Strategy of russian agricultural machinery modernization until 2030 (forecast)]. Tekhnicheskiy servis mashin. 2019. N4(137). 220-229 (In Russian).

6. Beylis V.M., Tsench Yu.S. Metodologicheskie aspekty standartizatsii mashinnykh tekhnologiy proizvodstva produk­tsii rastenievodstva [Methodological aspects of standardization of machine technologies for crop production]. Elektrotekhnologii i elektrooborudovanie v APK. 2019. N1(34). 61-67 (In Russian).

7. Izmaylov A.Yu., Lobachevskiy Ya.P. Sistema mashin i tekhnologiy dlya kompleksnoy mekhanizatsii i avtomatizatsii sel'skokhozyaystvennogo proizvodstva na period do 2020 goda [System of machines and technologies for integrated mechanization and automation of agricultural production for the period until 2020]. Sel'skokhozyaystvennye mashiny i tekhnologii. 2013. Vol. 7. N6. 6-10 (In Russian).

8. Lachuga Yu.F., Izmaylov A.Yu., Lobachevskiy Ya.P., Sho­ge­nov Yu.Kh. Intensivnye mashinnye tekhnologii, robotizirovannaya tekhnika i tsifrovye sistemy dlya proizvodstva osnovnykh grupp sel'skokhozyaystvennoy produktsii [Intensive machine technologies, robotyzed equipment and digital systems for production of main groups of agricultural products]. Tekhnika i oborudovanie dlya sela. 2018. N7. 2-7 (In Russian).

9. Izmaylov A.Yu., Lobachevskiy Ya.P., Beylis V.M., Tsench Yu.S. Innovatsionnaya sistema mashinno-tekhnologicheskogo obespecheniya predpriyatiy agropromyshlennogo kompleksa. Ch. 1. Innovatsionnaya sistema mashinno-tekhnologiches­kogo obespecheniya sel'skokhozyaystvennykh predpriyatiy na dlitel'nuyu perspektivu [Innovative system of machine and technological support for agro-industrial enterprises. Part 1. Innovative system of machine and technological support of agricultural enterprises for the long term]. Moscow: FNAC VIM. 2019. 228 (In Russian).

10. Tsench Yu.S. Stanovlenie i razvitie nauchno-tekhnicheskogo i kadrovogo obespecheniya agropromyshlennogo kompleksa Rossii [Formation and development of scientific, technical and personnel support of the agro-industrial complex in Russia.]. Moscow: FNAC VIM. 2021. 156 (In Russian).

11. Lobachevskiy Ya.P., Beylis V.M., Tsench Yu.S. Aspekty tsif­rovizatsii sistemy tekhnologiy i mashin [Digitization aspects of the system of technologies and machines]. Elektrotekhnologii i elektrooborudovanie v APK. 2019. N3(36). 40-45 (In Russian).

12. Lobachevskiy Ya.P., Starovoytov S.I., Akhalaya B.Kh., Tsench Yu.S. Tsifrovye tekhnologii v pochvoobrabotke [Digital technologies in pochvoobrabotke]. Innovatsii v sel'skom khozyaystve. 2019. N1(30). 191-197 (In Russian).

13. Lachuga Yu.F., Izmaylov A.Yu., Lobachevskiy Ya.P., Sho­genov Yu.Kh. Intensivnye mashinnye tekhnologii, robotizirovannaya tekhnika i tsifrovye sistemy dlya proizvodstva osnovnykh grupp sel'skokhozyaystvennoy produktsii [Intensive machine technologies, robotyzed equipment and digital systems for production of main groups of agricultural products]. Tekhnika i oborudovanie dlya sela. 2018. N7. 2-7 (In Russian)