71

In cotton processing enterprises, when transferring cotton raw materials to
technological processes, the pneumotransport system is used. In this process, raw cotton is moved in
air pipes with a diameter of 400 mm or 300 mm. In the process of picking, transporting and storing
cotton raw materials, heavy and solid foreign impurities of different sizes are added to the raw
materials. In order to effectively separate heavy and solid foreign compounds from the composition of
raw materials, the pneumotransport system is equipped with devices for separating heavy compounds
(trap chamber). Linear trap chambers are the first device that affects the technological and quality
parameters of the transported cotton, and serve to remove foreign bodies, as well as heavy impurities
in the process of air transport of cotton. Our research has shown that raw cotton is hit with a certain
force on the walls of lined trap chambers. These shocks lead to defects in cotton fibre and a decrease
in the quality of the seed. Today, cylindrical trap chambers are widely used in a number of cotton gin
factories. They differ from others in the simplicity of construction and ease of installation. However,
cylindrical traps have a low holding efficiency (60%) and in their operation, the walls of the working
chamber are broken by the impact of cotton.The article presents the theoretical foundations of studying
the state of pieces of cotton in the trap chamber and determining some design and technological
parameters of the device.
 

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 27-12-2023
  • Количество прочтений 71
  • Дата публикации 25-12-2023
  • Язык статьиIngliz
  • Страницы120-124
English

In cotton processing enterprises, when transferring cotton raw materials to
technological processes, the pneumotransport system is used. In this process, raw cotton is moved in
air pipes with a diameter of 400 mm or 300 mm. In the process of picking, transporting and storing
cotton raw materials, heavy and solid foreign impurities of different sizes are added to the raw
materials. In order to effectively separate heavy and solid foreign compounds from the composition of
raw materials, the pneumotransport system is equipped with devices for separating heavy compounds
(trap chamber). Linear trap chambers are the first device that affects the technological and quality
parameters of the transported cotton, and serve to remove foreign bodies, as well as heavy impurities
in the process of air transport of cotton. Our research has shown that raw cotton is hit with a certain
force on the walls of lined trap chambers. These shocks lead to defects in cotton fibre and a decrease
in the quality of the seed. Today, cylindrical trap chambers are widely used in a number of cotton gin
factories. They differ from others in the simplicity of construction and ease of installation. However,
cylindrical traps have a low holding efficiency (60%) and in their operation, the walls of the working
chamber are broken by the impact of cotton.The article presents the theoretical foundations of studying
the state of pieces of cotton in the trap chamber and determining some design and technological
parameters of the device.
 

Название ссылки
1 1. Пановка Я.Г. Основы прикладной теории колебаний у удара. // 3-е издание, переработано и дополнено: Л. «Машиностроение». «Ленинградское отделение». 1976., С.317.
2 2. Йўлдошбеков С.А. Материаллар қаршилиги. Т. Ўқитувчи. 1995. 192 б.
3 3. Тажибоев Р.Н., Жураев А. Машина деталлари. Дарслик-Т. Ўқитувчи. 2002. 268 б.
4 4. Мурадов Р., Марданов Б., Саримсаков О. Исследование движения и ударного взаимодействия частиц хлопка с отражателем в камере цилиндрического камнеуловителя. -Деп в УзНИИНТИ, 1992 № 1747-Уз.
5 5. Мардонов Б., Мурадов Р., Мамарасулов Х. Изучение движения хлопка-сырца по наклонной упругой пластине линейного камнеуловителя для хлопка-сырца. // Ташкент, УзНИИНТИ,депонированная рукопись № 1741, 1992. 6. Sidikov A., Mahmudova G., Karimov A., Sarimsakov O. STUDY OF THE MOVEMENT OF COTTON PARTICLES AND HEAVY IMPURITIES IN THE WORKING CHAMBER OF A PNEUMATIC CLEANER// Universum: technical science. 2(83), 51- 56.2021. 7. Sidikov A., Karimov N., Abdusattarov B., Sarimsakov O. The Study of Law of Distribution by Pipe Length and Transparency on Transportation of Cotton with Pneumatic Transport// Psychology and Education Journal. Vol.58, No.2, (2021). 291-295 pp 8. Sarimsakov O., Muradov R., Khusanov S. The ways to improve the air transportation of raw cotton// The American Journal of Engineering and Technology. Vol. — II, Issue —VII, July —2020. 2689—0984рр. 9. Akramjanov D., Boltabayev B., Khusanov S., Muradov R. On Determining The Conditions For Effective Operation Of The Vacuum Valve Of Cotton Separators// The American Journal of Engineering and Technology. Vol. —II, Issue —VII, July—2020. 2689—0984рр. 10. А.Каrimov, Sh.Аzizov, М.Ismanov. Mathematical Modeling Of the Technological Processes Original Processing Of Cotton. International Journal of Innovation and Applied Studies. ISSN 2028-9324 Vol. 6 No. 1 May 2014, pp. 28-39 © 2014 Innovative Space of Scientific Research Journals. 11. Obidov A., Akhmedhodjaev Kh., Sarimsakov O., Holikov Q. Investigation of the Properties of Fibrous Cotton Seeds, for Sorting on a Mesh Surface. Engineering. Vol.10 No.09 (2018) 12. Abdukarimovich M.O., Ibragimovich A.K. and Sharipjanovich S.O. Designing a New Design of a Loading Cylinder for Pneumomechanical Spinning Machines. Engineering, (2018)10, 345-356. 13. Tursunov I., Sarimsakov O., Mardanov B. (2019) The Movement of a Mixture of Cotton with an Air Stream during Pneumatic Transport by Pipeline of Variable Cross Section. Engineering. Vol.11 No.8, August 2019. 14. Sarimsakov, O. The Possibility of Reducing Cotton Consumption in Cotton. American Journal of Science and Technology, (2016) 4, 68-72. 15. Sarimsakov O., Khusanov C. Muradov R. The Change in Air Pressure Along the Length of the Pipeline Installation for Pneumatic Conveying of Raw Cotton
6 6. Sidikov A., Mahmudova G., Karimov A., Sarimsakov O. STUDY OF THE MOVEMENT OF COTTON PARTICLES AND HEAVY IMPURITIES IN THE WORKING CHAMBER OF A PNEUMATIC CLEANER// Universum: technical science. 2(83), 51-56.2021.
7 7. Sidikov A., Karimov N., Abdusattarov B., Sarimsakov O. The Study of Law of Distribution by Pipe Length and Transparency on Transportation of Cotton with Pneumatic Transport// Psychology and Education Journal. Vol.58, No.2, (2021). 291-295 pp
8 8. Sarimsakov O., Muradov R., Khusanov S. The ways to improve the air transportation of raw cotton// The American Journal of Engineering and Technology. Vol. — II, Issue —VII, July —2020. 2689—0984рр. 9. Akramjanov D., Boltabayev B., Khusanov
9 9. Akramjanov D., Boltabayev B., Khusanov S., Muradov R. On Determining The Conditions For Effective Operation Of The Vacuum Valve Of Cotton Separators// The American Journal of Engineering and Technology. Vol. —II, Issue —VII, July—2020. 2689—0984рр.
10 10. А.Каrimov, Sh.Аzizov, М.Ismanov. Mathematical Modeling Of the Technological Processes Original Processing Of Cotton. International Journal of Innovation and Applied Studies. ISSN 2028-9324 Vol. 6 No. 1 May 2014, pp. 28-39 © 2014 Innovative Space of Scientific Research Journals.
11 11. Obidov A., Akhmedhodjaev Kh., Sarimsakov O., Holikov Q. Investigation of the Properties of Fibrous Cotton Seeds, for Sorting on a Mesh Surface. Engineering. Vol.10 No.09 (2018)
12 12. Abdukarimovich M.O., Ibragimovich A.K. and Sharipjanovich S.O. Designing a New Design of a Loading Cylinder for Pneumomechanical Spinning Machines. Engineering, (2018)10, 345-356.
13 13. Tursunov I., Sarimsakov O., Mardanov B. (2019) The Movement of a Mixture of Cotton with an Air Stream during Pneumatic Transport by Pipeline of Variable Cross Section. Engineering. Vol.11 No.8, August 2019.
14 14. Sarimsakov, O. The Possibility of Reducing Cotton Consumption in Cotton. American Journal of Science and Technology, (2016) 4, 68-72.
15 15. Sarimsakov O., Khusanov C. Muradov R. The Change in Air Pressure Along the Length of the Pipeline Installation for Pneumatic Conveying of Raw Cotton. Journal of Engineering and Technology, (2016) 3, 89-92.
В ожидании