ЎЗБЕКИСТОН ШАРОИТИДА САБЗИ КОВЛАГИЧ ЭЛЕВАТОРИ ИШЧИ ОРГАНЛАРИНИНГ ПАРАМЕТРЛАРИНИ АСОСЛАШ

Admin bo'lib kirish (www.admin.slib.uz)

Tizim sinov (TEST) rejimida ishlamoqda! Murojat uchun @slib_support

Eski talqinga o'tish link

21 апрел 2022

Asosiy til:O'zbek

ЎЗБЕКИСТОН ШАРОИТИДА САБЗИ КОВЛАГИЧ ЭЛЕВАТОРИ ИШЧИ ОРГАНЛАРИНИНГ ПАРАМЕТРЛАРИНИ АСОСЛАШ

Fan yo'nalishi:

6260f1368fbfb.pdf

PDF

ILM-FAN VA INNOVATSION RIVOJLANISH

Maqola chop etish see more

MAQOLA ANNOTATSIYASI

Изланишлар шуни кўрсатадики, тупроқнинг физик-механик хусусиятлари ўзгарувчанлиги сабабли сабзини ковлагичлар билан йиғиштириш вақтида қаттиқ кесаклар ҳосил бўлиб, илдизмевалардан ажралмай қолади ва элакланиш технологик жараёнини мураккаблаштиради. Бу эса машиналарнинг ортиқча юкланишига олиб келади. Ковлагич элеваторининг элаклаш қобилиятини яхшилаш мақсадида панжарали юмшаткич номли ишчи органни ишлаб чиқдик. Тадқиқотнинг мақсади – тупроқ уюмининг элеватор кенглиги бўйлаб тенг тақсимланишини таъминлайдиган ва илдизмеваларни энг кам зарарлаган ҳолда аралашмаларнинг тўлиқ элакланишини яхшилайдиган сабзи ковлагичнинг панжарали юмшаткичи параметрларини асослашдир. Сабзи ковлагич панжарали юмшаткичининг геометри ва кинематик параметрларини ўрганиб чиқдик. Сабзи пушталарининг физик-механик хусусиятларини ўрганиш натижасида механизмнинг конструктив параметрлари ва унинг кинематик кўрсаткичларини назарий жиҳатдан асосладик. Панжарали юмшаткич элеватордаги тупроқ қатлами билан ўзаро таъсирланганда, тупроқ кесакларининг майдаланиш жараёни юз беради. Тупроқнинг юмшатилиши эса қуйидаги параметрлар бўйича бўлиши аниқланди: юмшаткич радиуси – 9,5 см дан катта эмас, валнинг жойлашиш баландлиги – 20 см, юмшаткич паррагининг юкланган қисми – 6 см, панжарали юмшаткич кенглиги – 47 см. Панжарали юмшаткичларнинг сабзи илдизмеваларининг шикастланиш ва йўқотишларсиз тупроқ қатламидан интенсив равишда элакланишига ёрдам бериши тадқиқ этилди. Панжарали юмшаткичнинг айланиш тезлиги секундига 2,5 м дан ошмаслиги зарурлиги, элакланишни жадаллаштиришнинг кинематик режими – 2,5, юмшаткич радиуси эса 9,5 см дан ошмаслиги кераклиги аниқланди.

MUALIFLAR

Teglar

# параметр# parameter# илдизмева# сабзи# морковь# carrots# сабзи ковлагич# тупроқ палахсасини элаклаш# панжарали юмшаткич# элеватор# копатель моркови# сепарация почвенных комков# решетчатый рыхлитель# корнеплоды# carrot digger# separation of the soil lumps# lattice cultivator# elevator# root crops

Maqolani baholang

0

0 ta

Maqola idintifikatorlari

ROI:

https://eroi.uz/11.0094/A0422-0072

DOI:

Mavjud emas

Foydalanilgan adabiyotlar

Norchayev D., Norchayev R. Korneklubnekopatel. Yevroaziatskiy soyuz uchenix. [Rootdigger. Eurasian Union of Scientists]. 2019, no 4 (61), pp. 55-57.

Zhongcai W., Hongwen L., Yijin M., Chuanzhu S., Xueqiang L., Wenzheng L., Guoliang S. Experiment and analysis of potatosoil separation based on impact recording technology. International Journal of Agriculture and Biology. 2019, nо 5 (12), pp. 71-80.

Lu G. Y., Shang S.Q., Wang D.W., Li J.D., Han W.P., He X.N. Study on lacy components of carrot harvester. Journal of Agricultural Mechanization Research, 2016, no 2, pp. 119-122.

Pramod R.А., Moses S.C., Aalam R.N. Performance Evaluation of Adjustable Elevator for Tractor Drawn Potato Digger. International Journal of Current Microbiology and Applied Sciences. 2018, no 7 (11), pp. 1502-1513.

Petersen T., Hampf H. Einsatz einer pneumatischen Trennan-lage in der Annahmestrecke des Kartoffellagerhaus Broderstorf. Agrartechnik. 1984, no. 7 (34), pp. 314-316.

Listopad G.Y., Demidov G.K., Zonov B.D. i dr. Selsko-xozyaystvenniye i meliorativniye mashini (Agricultural and reclamation machines). Moscow, Agropromizdat, 1986, 688 p.

Alakin V.M., Nikitin G.S. Rezultati issledovaniy texnologicheskogo protsessa kartofelekopatelya. Selskoxozyaystvenniye mashini i texnologii. [Research results of the potato digger technological process. Agricultural machines and technologies]. 2018, no 5, pp. 14-19.

Nikitin G.S., Alakin V.M., Plaxov S.A. Opredeleniye ratsionalnoy skorosti vrasheniya rabochix organov intensivnoy zoni separatsii rotatsionnogo kartofelekopatelya. Agrarniy nauchniy jurnal. [Determination of the rational speed of rotation of the working bodies of the intensive separation zone of the rotary potato digger. Agrarian scientific journal]. 2019, no. 6, pp. 96-100.

Mukesh J., Vijaya R., Anil K. Design and Development of Tractor Operated Carrot Digger. Agricultural mechanization in Asia, Africa and Latin America. 2018, no. 3 (49), pp. 79-85.

Ahmed M.O., Abd El-Wahab M.K., Tawfi k M.A., Wasfy K.I. Evaluating of a prototype machine for carrot crop harvesting suitable for small holdings. Zagazig Journal of Agricultural Research. 2018, no 1 (45), pp. 213-226.

Sibirev A.V., Aksenov A.G., Mosyakov M.A. Experimental Laboratory Research of Separation Intensity of Onion Set Heaps on Rod Elevator. Journal of Engineering and Applied Sciences, 2018, no 23, pp. 10086-10091.

Sibiryov A.V., Aksenov A.G., Mosyakov M.A. Rezultati eksperimentalnix issledovaniy separatsii voroxa luka-sevka na prutkovom elevatore s asimmetrichno ustanovlennimi vstryaxivatelyami. Engineering Technologies and Systems. [Results of experimental studies of separation of a heap of onion sets on a bar elevator with asymmetrically installed shakers. Engineering Technologies and Systems]. 2019, no 1, pp. 91-108.

Dorokhov A.S., Sibirev A.V., Aksenov A.G. Results of laboratory investigations of soil screening ability of a chain digger with asymmetric vibrator arrangement. INMATEH-Agricultural Engineering, 2019, no 1 (57), pp. 9-18.

Dorokhov A.S., Aksenov A.G., Sibirev A.V. Methodolog-ical justification of dynamic systems model construction by artificial neural networks. INMATEH – Agricultural Engineering. 2019, no 2 (58), pp. 63-75.

Sibirev A.V., Aksenov A.G., Dorokhov A.S., Ponomarev A.G. Comparative study of force action of harvester work tools on potato tubers. CAAS agricultural engineering journal, 2019, no 3 (55), pp. 85-90.

Doroxov A.S., Sibiryov A.V., Aksenov A.G. Rezultati polevix issledovaniy separatsii voroxa luka-sevka na prutkovom elevatore s asimmetrichno ustanovlennimi vstryaxivatelyami. Engineering Technologies and Systems. [Results of field studies of separation of a heap of onion sets on a bar elevator with asymmetrically installed shakers. Engineering Technologies and Systems]. 2020, no. 1 (30), pp. 133-149.

Dorokhov A.S., Sibirev A.V., Aksenov A.G., Sazonov N.V. Justification of design and technological parameters of the onion harvester bedshaping roller spiral drum. INMATEHAgricultural Engineering. 2020, no 1, pp. 107-114.

Dorokhov, A.S. Laboratory-field research results for onion cleaning. A.S. Dorokhov, A.V. Sibirev, A.G. Aksenov, M.A. Mosyakov. INMATEH: Agricultural Engineering. 2020, no. 2 (57), pp. 41-48.

Asghar M.T., Ghafoor A., Munir A., Iqbal M., Ahmad M. Design modification and field testing of groundnut digger. Asian Journal of Science and Technology. 2014, vol. 5, pp. 389-394.

Natenadze N. The design and theoretical justification of a vibratory digger shovel. Scientific technical union of mechanical engineering Bulgarian association of mechanization in agriculture. 2016, vol. 5, pp. 9-12.

Norchayev R, Norchayev D, Chorshanbiyev R. Obosnovaniye parametrov reshetchatogo rixlitelya kopatelya morkovi v usloviyax Respubliki Uzbekistan. Selskoxozyaystvenniye mashini i texnologii. [Justification of the parameters of the lattice ripper of the carrot digger in the conditions of the Republic of Uzbekistan. Agricultural machines and technologies]. vol. 14, no. 3, 2020, pp. 15-19.