AGROKLASTERLAR BOSH MODELI VA MASHINA PARKI TARKIBLARINI ASOSLASH (SHOLICHILIK KLASTERLAR MISOLIDA)
Keywords:
rice-growing tractor, general model, rational sown area, technological operation, rice cultivation, fl eet of machines, composition, type, quantity, effect.Abstract
This article presents the results of a study on the development of a general model of the rice cluster and the determination of the composition, types and quantity of the required machine park. The concept of “General model of a rice-growing cluster” is introduced and its definition is given. The general model for sown area is substantiated by the following sequence: regional rice clusters are grouped according to the values of sown area; clusters with the largest sown areas were selected from the groups and the corresponding variational series of numbers was formed; the upper limit of the mathematical expectation of this series is taken as the rational sowing area of the general model. Using the standard coefficients (numbers) of technical equipment required per 1 000 hectares of rice land, the composition, brands and number of tractors and agricultural machines that perform technological operations on the sowing area of the rice-growing cluster are determined. In rice growing clusters with a rational technical park, all agrotechnical operations are carried out at the optimum time and agricultural products adapted for processing are grown.
References
1. Toshboltayev, M., Achilov, J., Mirzabdullayev, X., Xamraqulov, T., & Egamnazarov, B. (2022). Agroklasterlar uchun ratsional mashina parki va ta’mirlash – xizmat ko‘rsatish bazasini asoslashning ilmiy-muhandislik yo‘nalishlari [Scientific-engineering directions of establishing a rational machine park and maintenance-service base for agroclusters]. Agroilm – Agroscience(2), 77-78.
2. Qishloq xo‘jaligi ekinlarini parvarishlash va mahsulot yetishtirish bo‘yicha namunaviy texnologik kartalar [Model technology cards for care of agricultural crops and production] (vol.1). (2016). Tashkent: Research Institute of Agricultural Economics.
3. Toshboltayev, M., & Djiyanov, M. (2021). Paxta-to‘qimachilik klasterlari uchun mashinalar va texnik xizmat ko‘rsatish punktlari tarkiblarini asoslash [Basing the composition of machinery and technical service points for cotton-textile clusters]. Tashkent: Navroz Publ.
4. Toshboltayev, M., & Djiyanov, M. (2019). Texnika vositalariga bo‘lgan talab va uni aniqlashning umumiy tartibi [The demand for technical equipment and the general procedure for determining]. Agrotechnica World(2), 16-18.
5. Митков А.Л., Кардашевский С.В. Статистические методы в сельхозмашиностроение. – Москва: Машиностраение, 1978. – 360 с.
6. Ермолов Л.С., Кряжков В.М., Черкун В.Е. Основы надежности сельскохозяйственной техники. – Москва: Колос, 1974. – 223 с.
7. Toshboltayev M. O‘zbekiston qishloq xo‘jaligida mashina-traktor agregatlaridan foydalanish darajasini oshirishning nazariy-metodologik asoslari. Monografiya. – Toshkent: «Fan va texnologiya», 2016. ‒ 604 b.
8. Muradovich, R. R., Ibragimov, D., Egamnazarov, B., Seytimbetova, Z., & Sarkarova, Z. X. (2021). Methodology of development of technical and economic model of agricultural machinery dealer point.
9. Egamnazarov, B. (2023). SHOLICHILIK KLASTERI BOSH MODELI VA MASHINA PARKI TARKIBINI ASOSLASH. SCIENCE AND INNOVATIVE DEVELOPMENT, 6(3), 106-114.
10. Toshboltaev, M. T., & Egamnazarov, B. (2023). Rationale for the composition, type and quantity of technology for rice clusters. Сельскохозяйственные машины и технологии, 17(3), 73-78.
11. Эгамназаров Бехзод Бахромжон Ўғли (2023). Шоличилик кластери бош модели ва машина парки таркибини асослаш. Илм-фан ва инновацион ривожланиш / Наука и инновационное развитие, 6 (3), 106-114. doi: 10.36522/2181-9637-2023-3-11
12. Тошболтаев, М.Т., & Эгамназаров, Б. (2023). Обоснование состава, типа и количества технических средств для рисоводческих кластеров. Сельскохозяйственные машины и технологии, 17(3), 73-78.
13. Egamnazarov, B. (2023). SHOLICHILIK KLASTERI BOSH MODELI VA MASHINA PARKI TARKIBINI ASOSLASH. SCIENCE AND INNOVATIVE DEVELOPMENT, 6(3), 106-114.
14. Rustamov, R., Ibragimov, D., Egamnazarov, B., Seytimbetova, Z., & Sarkarova, Z. X. (2021). Methodology of Development of Technical and Economic Model of Agricultural Machinery Dealer Point. American Journal of Social and Humanitarian Research, 2(8), 1-7.
15. Turdaliyev V. М., Shotmonov D, & Egamnazarov B. (2021). AMORTIZATOR SAYLENTBLOKI UCHUN SIRPANISH PODSHIPNIGINI TA'MIRLASH KOMPLEKTINI TAKOMILLASHTIRISH. Механика и технология, 2 (3), 21-26.
