The proposed resource-saving technology consists in ridge sowing seeds of second crops in the rows of cotton, after harvesting the planting filler crops of winter wheat for grain, which was sowing along the slopes of irrigation furrows. After harvesting the cotton stems and planting filler crops of winter wheat, which falls on next year, the soil of the cotton ridge is loosened by strip-tilling and the second crops are sown in the cotton ridge by one pass of the aggregate. Aggregate replaces 3 agricultural machines and performs functions: undercutting and complete destruction of vegetative weeds; cutting the ridge soil in a vertical plane along the line of separation of the furrow slice from the array along the future seed row and partial milling of soil and trash; mulching the surface of the dried up soil layer of the ridge; minimal cultivation of ridge soil, combined with mulching the surface with trash of cotton; intensive crumbling and loosening of the lower soil of the ridge without turning it to the surface; preparation of a leveled hard bed; dotted sowing of seeds second crop in the ridge of cotton.
A scheme for arranging the milling and chisel working bodies on the beam of a row cultivator, as well as their rational parameters, has been developed. Soil solidity at the tops of the ridge, on the slopes of the ridge and in the furrow determined. It is in limit 5,4…12.5 % which completely satisfy to agrotechnical demands.
The proposed resource-saving technology consists in ridge sowing seeds of second crops in the rows of cotton, after harvesting the planting filler crops of winter wheat for grain, which was sowing along the slopes of irrigation furrows. After harvesting the cotton stems and planting filler crops of winter wheat, which falls on next year, the soil of the cotton ridge is loosened by strip-tilling and the second crops are sown in the cotton ridge by one pass of the aggregate. Aggregate replaces 3 agricultural machines and performs functions: undercutting and complete destruction of vegetative weeds; cutting the ridge soil in a vertical plane along the line of separation of the furrow slice from the array along the future seed row and partial milling of soil and trash; mulching the surface of the dried up soil layer of the ridge; minimal cultivation of ridge soil, combined with mulching the surface with trash of cotton; intensive crumbling and loosening of the lower soil of the ridge without turning it to the surface; preparation of a leveled hard bed; dotted sowing of seeds second crop in the ridge of cotton.
A scheme for arranging the milling and chisel working bodies on the beam of a row cultivator, as well as their rational parameters, has been developed. Soil solidity at the tops of the ridge, on the slopes of the ridge and in the furrow determined. It is in limit 5,4…12.5 % which completely satisfy to agrotechnical demands.
№ | Имя автора | Должность | Наименование организации |
---|---|---|---|
1 | Alimova F.A. | Professor | TDTU |
2 | Primqulov B.. | Senior lecturer | TDTU |
№ | Название ссылки |
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1 | Decree of the President of the Republic of Uzbekistan № PP-3281 “On measures for the rational placement of agricultural crops in 2018 and projected volumes of agricultural production” . |
2 | General concepts of mechanization and electrification of agriculture in Uzbekistan till 2020 - Tashkent: Science, 2011. (in Russian) |
3 | Tuhtaquziev A. Ways to Reduce Energy Consumption in Soil Control. Republican scientific-practical conference on the theme: “Creation and operation of high-performance agricultural machines.” - Tashkent, 2017. - p.93-98 |
4 | Sokolova L.S. Minimal tilling of soil. “Questions of social orientation of modeling the technological processes. Modern studies of social problems”. - 2012. - № 7. (in Russian) |
5 | Hasanova F.M., Karabayev I.T. “The influence of agricultural technology of soil cultivation on the productivity of repeated crops”. Monograph. - T. Navruz typography. 2018y. 124 p. (in Uzbek) |
6 | 6. Modern technologies in agriculture output production. American Machinery company. Associated with DEERE & CO, 2010 y. 25 p. (in English) |
7 | 7. Dospehov B.A. “Methods of field experience”. M. Agropromizdat. 1985y. 351p. (in Russian) |
8 | 8. Karahanov A.K.et all. Survey of the project “Development of energy-resource-water-saving technology for cultivating crops on permanent ridges and ridges and drums and engineeping a combined aggregate for their implementation” Research Institute IMEA. Gulbakhor. 2014 y. 167 p. (in Russian) |
9 | 9. Modern technologies in agriculture output production. American Machinery company. Associated with DEERE & CO, 2010 y. 25 p. (in English) |
10 | 10. Alimova F.A., Primkulov B.Sh. “An yenergy assessment of cotton cultivated aggregates and their working bodies”. "International Scientific and Practical Conference "WORLD SCIENCE", 2017. 31 may. |
11 | R.R. Xudoykuliev, N.B. Djuraeva, B.Sh. Primkulov. “Erga ishlov berishda keng qamrovli kultivatorning tayanch yumshatuvchi lapa tizimidagi ko’ndalang tebranishlarni hisoblash usuli”. Mexanika muammolari. (№1 2019y) 42-47 bet. |
12 | Se gun R. Bello. Agricultural machinery and mechanization, Published in USA by Createspace US in 2012. |
13 | 13. Srivastava A. K., Goering C. Ye., Rohrbach R.P., Buckmaster D. R. Engineering principles of agricultural machines. ASABE, 2006 -559 r |
14 | 14. Alimova F. A., Primkulov B.Sh. Investigations of Technologial Proccess Work of the Energy-Saving Combination Aggregate For Re-Sowing The Seeds. International Journal of Advanced Science and Technology Vol. 29, No. 9s, (2020), pp. 5770-5779 |
15 | 15. Alimova F. A., Primkulov B.Sh. The Analysis of the Technological Process of Row Crop Cultivator using the Laws of Classical Mathematics. ‘International Journal of Engineering and Advanced Technology (IJEAT)’, ISSN: 2249-8958 (Online), Volume-9 Issue-3, February 2020, Page No. 2430-2435. |
16 | 16. Tolibaev А., Primkulov B. Minimal ishlov bilan takroriy ekinlar ekishga moʼljallangan dala sharoiti «AGRO ILM» 2020 yil, may-iyunь 3 (66)-son. 51-52b. |