ПАХТА ТОЗАЛАШ ҚУРИЛМАСИНИНГ САМАРАЛИ ИШЛАШИНИ ТАЪМИНЛОВЧИ ОПТИМАЛ ПАРАМЕТРЛАРНИ АНИҚЛАШ

Muradov Rustam  Muradovich; Raximov Fayzullo Xusanboy ogli; Qirg'izov Madyor O'ktamali o'g'li

Ҳар бир технологик машиналарни лойиҳалаш ва ишлаб чиқаришга жорий қилишдан аввал уларнинг рационал параметрларини аниқлаш алоҳида аҳамият касб этади. Чунки лойиҳаланаётган янги машина ўзидан олдинги ва кейинги жараёндаги машиналарга мутаносиб бўлиши зарур. Худди шундай ишлаб чиқариш соҳаларидан бири пахтани дастлабки ишлаш бўлиб, ушбу соҳада ҳам бир нечта кетма-кетликда жойлашган технологик машиналардан фойдаланилади. Уларнинг юқори самарадорлик ва унумдорликда ишлаши рационал параметрларга эга бўлган ишчи органларига боғлиқдир. Тадқиқотчилар томонидан соҳага жорий қилинаётган пахта тозалаш машиналарининг самарали ишлашини таъминловчи параметрларни аниқлаш ҳамда белгиланган тартибда тажрибалар ўтказиш долзарб муаммолардан бири ҳисобланади. Мақолада пахта тозалаш корхоналарида пахта хомашёсини йирик ва майда минерал аралашмалардан тозалашда фойдаланиб келинаётган технологик машиналарнинг ишлаши мобайнида ишчи элементларининг қурилма тозалаш самарадорлигига таъсири ўрганилиб, қурилма ишчи элементлари турли хил қийматларда кирувчи омил сифатида танлаб олинган. Қурилма ишчи элементларининг оптимал параметрларини аниқлаш мақсадида такрорланмас комбинациялашган усулда ўтказилган тажрибалар натижалари келтирилган. Ушбу параметрларни аниқлашда ТОТ 23 кўринишдаги тўлиқ факторли эксперимент ўтказиш орқали қурилма ишчи органларининг рационал параметрлари аниқланган. Олинган натижалар Фишер F-критериясининг 5 % аҳамиятлилик даражасидаги жадвал асосида солиштириб текширилган.

Name of journalИЛМ-ФАН ВА ИННОВАЦИОН РИВОЖЛАНИШ
Number of editionИлм-фан ва инновацион ривожланиш илмий журнали 2024 йил 5-сон
View count 2

Web Address

DOI

Date of creation in the UzSCI system 28-11-2024

Read count 2

Date of publication 31-10-2024

Main LanguageO'zbek

Pages30-40

Tags

қувур

пахта

тезлик

ҳаво

тозалаш машинаси

вакуум клапани

магнитли барабан

резина парраклар

металл парчаси

ғўза кўсаги

Ўзбек

Ҳар бир технологик машиналарни лойиҳалаш ва ишлаб чиқаришга жорий қилишдан аввал уларнинг рационал параметрларини аниқлаш алоҳида аҳамият касб этади. Чунки лойиҳаланаётган янги машина ўзидан олдинги ва кейинги жараёндаги машиналарга мутаносиб бўлиши зарур. Худди шундай ишлаб чиқариш соҳаларидан бири пахтани дастлабки ишлаш бўлиб, ушбу соҳада ҳам бир нечта кетма-кетликда жойлашган технологик машиналардан фойдаланилади. Уларнинг юқори самарадорлик ва унумдорликда ишлаши рационал параметрларга эга бўлган ишчи органларига боғлиқдир. Тадқиқотчилар томонидан соҳага жорий қилинаётган пахта тозалаш машиналарининг самарали ишлашини таъминловчи параметрларни аниқлаш ҳамда белгиланган тартибда тажрибалар ўтказиш долзарб муаммолардан бири ҳисобланади. Мақолада пахта тозалаш корхоналарида пахта хомашёсини йирик ва майда минерал аралашмалардан тозалашда фойдаланиб келинаётган технологик машиналарнинг ишлаши мобайнида ишчи элементларининг қурилма тозалаш самарадорлигига таъсири ўрганилиб, қурилма ишчи элементлари турли хил қийматларда кирувчи омил сифатида танлаб олинган. Қурилма ишчи элементларининг оптимал параметрларини аниқлаш мақсадида такрорланмас комбинациялашган усулда ўтказилган тажрибалар натижалари келтирилган. Ушбу параметрларни аниқлашда ТОТ 23 кўринишдаги тўлиқ факторли эксперимент ўтказиш орқали қурилма ишчи органларининг рационал параметрлари аниқланган. Олинган натижалар Фишер F-критериясининг 5 % аҳамиятлилик даражасидаги жадвал асосида солиштириб текширилган.

Tags

қувур

пахта

тезлик

ҳаво

тозалаш машинаси

вакуум клапани

магнитли барабан

резина парраклар

металл парчаси

ғўза кўсаги

Русский

Особое значение приобретает определение рациональных параметров каждого технологического оборудования перед его проектированием и внедрением в производство, так как проектируемое новое оборудование должно быть соотнесено с существующим оборудованием. Первичная обработка хлопка – одна из производственных отраслей, где также используются технологические устройства, расположенные в нескольких производственных цепочках. Их высокая эффективность и производительность зависит от рабочих элементов с рациональными параметрами. Одной из актуальных проблем является определение исследователями этих параметров, обеспечивающих эффективную работу хлопкоочистительных машин, внедряемых в отрасль, а также проведение соответствующих экспериментов. В статье изучено влияние рабочих элементов устройства на эффективность очистки хлопкового сырья от крупных и мелких минеральных примесей в ходе эксплуатации технологи - че ских машин, применяемых на хлопкоочистительных предприятиях, определены различные параметры рабочих элементов устройства как нежелательные факторы при очистке. Представлены результаты экспериментов, проведённых методом комбинаторики с целью определения оптимальных параметров рабочих элементов устройства. Значение рациональных параметров рабочих элементов устройства определялось путём проведения полнофакторного эксперимента в виде ТОТ 23. Полученные результаты сравнивали при помощи F-критерия Фишера при 5 % значимости.

Tags

труба

хлопок

очиститель

скорость

воздух

вакуумный клапан

магнитный барабан

куски резины

куски металла

коробочка хлопчатника

English

Determining of rational parameters of each technological machine before introducing it into a design and manufacture is considered of particular importance. Because a new machine being designed must be proportional to the ones in the process before and after it. One of these areas of manufacture is a primary processing of cotton, which also uses technological machines arranged in several series. Their high efficiency and productivity depend on working parts having rational parameters. One of the relevant tasks of the research is to determine the parameters that will ensure effective operation of cotton gins as well as to conduct experiments in accordance with established procedures. The article reviews influence of working parts on the efficiency of cleaning the device during operation of technological machines used in cleaning of cotton raw materials from large and mineral impurities at cotton ginning enterprises, as well as it examines working elements of the device selected as input factors of different values. In view to determine optimal parameters of the working elements of the device, the results of experiments made using a non-repetitive combined method are being presented. When determining these parameters, the rational data of the working parts of the device were found by conducting a full factorial experiment in the TOT 23 form. The results retrieved were compared by Fisher’s F test at a significance level of 5%.

Tags

pipe

cotton

speed

air

vacuum valve

cotton boll

cleaning machine

magnetic drum

rubber sheets

piece of metal

№ Author name position Name of organisation

1 Muradov R.M. texnika fanlari doktori, professor Namangan to‘qimachilik sanoati instituti

2 Raximov F.X. texnika fanlari bo‘yicha falsafa doktori (PhD) Namangan to‘qimachilik sanoati instituti

3 Qirg'izov M.O. mustaqil izlanuvchi “University of Business and Science” nodavlat oliy ta'lim muassasasi

№ Name of reference

1 Abdukarimov, T., Kasimov, H., & Rakhimov F. (2021a). Determining the efficiency of cleaning by experimenting in a device that separates heavy impurities from cotton. (In Uzbek). Science and Technology Development, (6), 229–235. Bukhara Institute of Engineering and Technology.

2 Abdukarimov, T., Shamshiddinov, I., Rakhimov, F., & Muradov, R. (2021b). Increasing the efficiency of stone catcher device by installing a cutter in the working chamber. (In Russian). Vanguard of Youth Science, 186–192.

3 Aliyev, О., Botirov, А., Коsimov, Х., & Rakhimov, F. (2022). Ways to increase the work efficiency of working bodies machined with a shaped cutter. Proceedings of the International conference on Humanities, Education and Sciences, 247–250. Los-Angeles, Californiya, USA.

4 Gadoev, N., Muradov, R., Kosimov, Kh., & Rakhimov, F. (2022). Study of raw cotton movement in the working chamber of a stone trap. (In Russian). Proceedings of the International Conference on Research in Humanities, Applied Sciences and Education Hosted (pp. 352–355). Berlin, Germany.

5 Jamolov, A., Muradov, R., Kozokov, S., & Abdukarimov, T. (2023). Theoretical analysis of the process of cleaning cotton from small contaminants on a drum with an inclined splitter. AIP Conference Proceedings (vol. 2789 (1)). AIP Publ.

6 Kamoliy, I., Muradov, R., & Rakhimov, F. (2022). The role of the vacuum valve in the technological machinery of cotton ginning enterprises. (In Uzbek). Economic, innovative-technological problems and international experience of increasing the efficiency of product production based on deep processing of raw materials in cotton textile clusters: Proceedings of the International Conference (pp. 188–192). Namangan: Namangan Engineering and Technological Institute.

7 Kosimov, H., Muradov, R., & Rakhimov, F. (2022b). New technology of removing heavy impurities separated from cotton from the working chamber of the dryer. (In Uzbek). Modern researches, innovations, current problems and development trends of technology and technology: Proceedings of the International scientific and technical conference (vol. 8-9, pp. 729–730). Jizzakh.

8 Kosimov, H., Saidmakhamadov, N., & Rakhimov F. (2022c). Improvement of the incinerator device for separating heavy impurities from the cotton composition. (In Uzbek). The role and importance of digital life and social sciences in raising a mature generation: current problems and prospects: Proceedings of the Scientific and Practical Conference (pp. 225–228). Andijan.

9 Kosimov, Kh., Karimov, A., Muradov, R., & Rakhimov, F. (2020a). Ways to increase the efficiency of the refrigerator. (In Uzbek). Scientific and Technical Journal, (1), 205–212. Namangan Engineering and Technological Institute.

10 Kosimov, Kh., Muradov, R., & Rakhimov, F. (2022e). Improving the process of cleaning cotton raw materials from heavy impurities. (In Uzbek). Ensuring modern integration of competitive personnel training in higher education institutions: problems and solutions: Proceedings of the Republican Scientific and Technical Conference (pp. 411–413). Tashkent: Tashkent State Technical University named after Islam Karimov.

11 Kosimov, X., Muradov, R., & Rakhimov, F. (2022d). Ways to reduce cotton particles mixed with waste in the dryer. (In Uzbek). Problems in textile and light industry in the context of science and production integration and ways to overcome them: Proceedings of the International scientific-practical conference (vol. 1, pp. 180–182). Namangan: Namangan Engineering and Technological Institute.

12 Kosimov, X., Muradov, R., & Rakhimov, F. (2022f). Devices for separating heavy impurities from cotton content and their shortcomings. (In Uzbek). Scientific basis of application of innovative technologies in modern engineering: experience and prospects: Proceedings of the International ScientificPractical Conference (pp. 244–246). Namangan: Namangan Engineering and Technological Institute.

13 Meliboyev, U. (2020). To‘qimachilik sanoati texnologik jarayonlarini modellashtirish asoslari [Basics of modeling technological processes of the textile industry]. (In Uzbek). Namangan.

14 Mukhametshina, E. T., Jamolov, A., & Muradov, R. M. (2020). Study on possibilities of scarring ways to reduce in the cotton cleaning process. IOP Conference Series: Earth and Environmental Science, 614 (1). IOP Publ.

15 Muradov, R., Karimov, A., Kosimov, Kh., & Rakhimov, F. (2020a). Ways to reduce the falling of a piece of cotton into a pocket in a dryer. (In Uzbek). Mechanical Problems, 4, 67–70.

16 Muradov, R., Kasymov, H., Karimov, A., & Rakhimov, F. (2020b). Theoretical Study of the Movement of New Impurities and Heavy Impurities. The Аmerican Journal of Engineering and Technology, 2(7), 18–27.

17 Mutalov, M., Abdukarimov, T., Sarimsakov, O., & Rakhimov, F. (2021). Modeling the movement of cotton in a pneumatic transport pipeline. (In Uzbek). DGU, 18102.

18 Rajapova, N., Salomova, M., Muradov, R., & Rakhimov, F. (2019). Create a Device that can Remove Heavy Components from the Chassis Chamber. International Journal Advanced Research Science, Engineering and Technology, 6(7), 10041–10047.

19 Rakhimov, F. H. (2023). Improvement of the ginning device in order to preserve the natural properties of cotton [PhD thesis]. (In Uzbek). Namangan.

20 Rakhimov, F., Akhmedov, M., Kosimov, Kh., & Muradov, R. (2022). Analysis of technological processes that cause fiber loss during initial processing of cotton. (In Uzbek). Innovative solutions of technical, engineering and technological problems of production: Proceedings of the International Scientific and Technical Conference (pp. 799–801). Jizzakh: Jizzakh Polytechnic Institute.

21 Rakhimov, F., Kosimov, X., Muradov, R., & Gadayev, N. (2023). Increase the efficiency of the stamping device by installing a router in the working chamber. AIP Conference Proceedings (vol. 2789 (1)). AIP Publ.

22 Salomova, M., Kasimov, Kh., & Rakhimov, F. (2019). Improvement of pneumatic transport device elements (In Uzbek). Mechanical Problems, (1), 101–105.

23 Salomova, M., Oripov, N., Sarimsakov, O., & Rakhimov, F. (2020). Pneumatic transport orchestra of cotton wool and energy resource management technology. (In Uzbek). Scientific and Technical Journal, (2), 138–144.

Waiting

№	Author name	position	Name of organisation
1	Muradov R.M.	texnika fanlari doktori, professor	Namangan to‘qimachilik sanoati instituti
2	Raximov F.X.	texnika fanlari bo‘yicha falsafa doktori (PhD)	Namangan to‘qimachilik sanoati instituti
3	Qirg'izov M.O.	mustaqil izlanuvchi	“University of Business and Science” nodavlat oliy ta'lim muassasasi

№	Name of reference
1	Abdukarimov, T., Kasimov, H., & Rakhimov F. (2021a). Determining the efficiency of cleaning by experimenting in a device that separates heavy impurities from cotton. (In Uzbek). Science and Technology Development, (6), 229–235. Bukhara Institute of Engineering and Technology.
2	Abdukarimov, T., Shamshiddinov, I., Rakhimov, F., & Muradov, R. (2021b). Increasing the efficiency of stone catcher device by installing a cutter in the working chamber. (In Russian). Vanguard of Youth Science, 186–192.
3	Aliyev, О., Botirov, А., Коsimov, Х., & Rakhimov, F. (2022). Ways to increase the work efficiency of working bodies machined with a shaped cutter. Proceedings of the International conference on Humanities, Education and Sciences, 247–250. Los-Angeles, Californiya, USA.
4	Gadoev, N., Muradov, R., Kosimov, Kh., & Rakhimov, F. (2022). Study of raw cotton movement in the working chamber of a stone trap. (In Russian). Proceedings of the International Conference on Research in Humanities, Applied Sciences and Education Hosted (pp. 352–355). Berlin, Germany.
5	Jamolov, A., Muradov, R., Kozokov, S., & Abdukarimov, T. (2023). Theoretical analysis of the process of cleaning cotton from small contaminants on a drum with an inclined splitter. AIP Conference Proceedings (vol. 2789 (1)). AIP Publ.
6	Kamoliy, I., Muradov, R., & Rakhimov, F. (2022). The role of the vacuum valve in the technological machinery of cotton ginning enterprises. (In Uzbek). Economic, innovative-technological problems and international experience of increasing the efficiency of product production based on deep processing of raw materials in cotton textile clusters: Proceedings of the International Conference (pp. 188–192). Namangan: Namangan Engineering and Technological Institute.
7	Kosimov, H., Muradov, R., & Rakhimov, F. (2022b). New technology of removing heavy impurities separated from cotton from the working chamber of the dryer. (In Uzbek). Modern researches, innovations, current problems and development trends of technology and technology: Proceedings of the International scientific and technical conference (vol. 8-9, pp. 729–730). Jizzakh.
8	Kosimov, H., Saidmakhamadov, N., & Rakhimov F. (2022c). Improvement of the incinerator device for separating heavy impurities from the cotton composition. (In Uzbek). The role and importance of digital life and social sciences in raising a mature generation: current problems and prospects: Proceedings of the Scientific and Practical Conference (pp. 225–228). Andijan.
9	Kosimov, Kh., Karimov, A., Muradov, R., & Rakhimov, F. (2020a). Ways to increase the efficiency of the refrigerator. (In Uzbek). Scientific and Technical Journal, (1), 205–212. Namangan Engineering and Technological Institute.
10	Kosimov, Kh., Muradov, R., & Rakhimov, F. (2022e). Improving the process of cleaning cotton raw materials from heavy impurities. (In Uzbek). Ensuring modern integration of competitive personnel training in higher education institutions: problems and solutions: Proceedings of the Republican Scientific and Technical Conference (pp. 411–413). Tashkent: Tashkent State Technical University named after Islam Karimov.
11	Kosimov, X., Muradov, R., & Rakhimov, F. (2022d). Ways to reduce cotton particles mixed with waste in the dryer. (In Uzbek). Problems in textile and light industry in the context of science and production integration and ways to overcome them: Proceedings of the International scientific-practical conference (vol. 1, pp. 180–182). Namangan: Namangan Engineering and Technological Institute.
12	Kosimov, X., Muradov, R., & Rakhimov, F. (2022f). Devices for separating heavy impurities from cotton content and their shortcomings. (In Uzbek). Scientific basis of application of innovative technologies in modern engineering: experience and prospects: Proceedings of the International ScientificPractical Conference (pp. 244–246). Namangan: Namangan Engineering and Technological Institute.
13	Meliboyev, U. (2020). To‘qimachilik sanoati texnologik jarayonlarini modellashtirish asoslari [Basics of modeling technological processes of the textile industry]. (In Uzbek). Namangan.
14	Mukhametshina, E. T., Jamolov, A., & Muradov, R. M. (2020). Study on possibilities of scarring ways to reduce in the cotton cleaning process. IOP Conference Series: Earth and Environmental Science, 614 (1). IOP Publ.
15	Muradov, R., Karimov, A., Kosimov, Kh., & Rakhimov, F. (2020a). Ways to reduce the falling of a piece of cotton into a pocket in a dryer. (In Uzbek). Mechanical Problems, 4, 67–70.
16	Muradov, R., Kasymov, H., Karimov, A., & Rakhimov, F. (2020b). Theoretical Study of the Movement of New Impurities and Heavy Impurities. The Аmerican Journal of Engineering and Technology, 2(7), 18–27.
17	Mutalov, M., Abdukarimov, T., Sarimsakov, O., & Rakhimov, F. (2021). Modeling the movement of cotton in a pneumatic transport pipeline. (In Uzbek). DGU, 18102.
18	Rajapova, N., Salomova, M., Muradov, R., & Rakhimov, F. (2019). Create a Device that can Remove Heavy Components from the Chassis Chamber. International Journal Advanced Research Science, Engineering and Technology, 6(7), 10041–10047.
19	Rakhimov, F. H. (2023). Improvement of the ginning device in order to preserve the natural properties of cotton [PhD thesis]. (In Uzbek). Namangan.
20	Rakhimov, F., Akhmedov, M., Kosimov, Kh., & Muradov, R. (2022). Analysis of technological processes that cause fiber loss during initial processing of cotton. (In Uzbek). Innovative solutions of technical, engineering and technological problems of production: Proceedings of the International Scientific and Technical Conference (pp. 799–801). Jizzakh: Jizzakh Polytechnic Institute.
21	Rakhimov, F., Kosimov, X., Muradov, R., & Gadayev, N. (2023). Increase the efficiency of the stamping device by installing a router in the working chamber. AIP Conference Proceedings (vol. 2789 (1)). AIP Publ.
22	Salomova, M., Kasimov, Kh., & Rakhimov, F. (2019). Improvement of pneumatic transport device elements (In Uzbek). Mechanical Problems, (1), 101–105.
23	Salomova, M., Oripov, N., Sarimsakov, O., & Rakhimov, F. (2020). Pneumatic transport orchestra of cotton wool and energy resource management technology. (In Uzbek). Scientific and Technical Journal, (2), 138–144.