46

The findings of research conducted on the saw gin’s accelerator in its raw chamber
are displayed at different belt drive eccentricity values, both in the absence of load and with
technological load. It has been discovered that, in a steady-state scenario without a load, the
maximum torque value increases as the eccentricity of the system’s tension roller increases in a
technological load scenario, the torque minimum is noted at an eccentricity of e = 3 mm. When
conducting experiments under load, the average angular velocity fluctuation amplitude and the
coefficient of unevenness of rotation have minimum values at zero eccentricity and rise as eccentricity
increases. The followings are determined: the raw roller’s moment of resistance under load on the
shaft; the relationship between the gin’s productivity and the moment of technological resistance,
patterns of changes in the accelerator shaft’s angular velocity and linear accelerations, the impact of
variable speed conditions on the raw roller, and the raw roller’s pressure on the working chamber
walls based on the eccentricity of the tension roller. It has been found that the range of force variations
on the working chamber wall, the coefficient of uneven normal pressure, and the average density of
the raw roller all increase with increasing roller eccentricity. The patterns of alternating rotation’s
influence on the kinematic and dynamic parameters of the accelerator shaft and raw roller were made
evident by the produced graphs. A description of the experimental methods is given. Both the
calculation of a two-mass dynamic system and the field of saw fiber separation can benefit from the
experimental results.
 

  • Internet ҳавола
  • DOI
  • UzSCI тизимида яратилган сана 24-04-2024
  • Ўқишлар сони 46
  • Нашр санаси 20-04-2024
  • Мақола тилиIngliz
  • Саҳифалар сони66-73
English

The findings of research conducted on the saw gin’s accelerator in its raw chamber
are displayed at different belt drive eccentricity values, both in the absence of load and with
technological load. It has been discovered that, in a steady-state scenario without a load, the
maximum torque value increases as the eccentricity of the system’s tension roller increases in a
technological load scenario, the torque minimum is noted at an eccentricity of e = 3 mm. When
conducting experiments under load, the average angular velocity fluctuation amplitude and the
coefficient of unevenness of rotation have minimum values at zero eccentricity and rise as eccentricity
increases. The followings are determined: the raw roller’s moment of resistance under load on the
shaft; the relationship between the gin’s productivity and the moment of technological resistance,
patterns of changes in the accelerator shaft’s angular velocity and linear accelerations, the impact of
variable speed conditions on the raw roller, and the raw roller’s pressure on the working chamber
walls based on the eccentricity of the tension roller. It has been found that the range of force variations
on the working chamber wall, the coefficient of uneven normal pressure, and the average density of
the raw roller all increase with increasing roller eccentricity. The patterns of alternating rotation’s
influence on the kinematic and dynamic parameters of the accelerator shaft and raw roller were made
evident by the produced graphs. A description of the experimental methods is given. Both the
calculation of a two-mass dynamic system and the field of saw fiber separation can benefit from the
experimental results.
 

Муаллифнинг исми Лавозими Ташкилот номи
1 Akhmedjanov Y.A. Associate Professor 1Tashkent State Technical University Named After Islam Karimov
Ҳавола номи
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2 5. Djuraev A. Dinamika rabochix mexanizmov xlopkopererabativayushix mashin, T: izd-vo Fan UzSSR, 1984,- 168 s. 6. Djuraev A., Yunusov S. Dinamika mashinnix agregatov s mexanizmami rabochix organov pil'nogo djina. Monografiya.-T.: 2011, "Fan", -181 s. 7. Berezin I.Ya., Rixter Ye.E. Eksperimental'nie metodi issledovaniy: Uchebnoe posobie.- Chelyabinsk: Izd. YuUrGU, 2005g. - 83 s. 8. Pascheti i ispitaniya na prochnost' eksperimental'nie metodi opredeleniya napryajennodeformirovannogo sostoyaniya elementov mashin i konstruksiy. Metod naturnoy tenzometrii energeticheskogo oborudovaniya. Rekomendasii.M.: 19889. Loginov V. N. Elektricheskie izmereniya mexanicheskix velichin. Izd. 2-e, dop. M.: "Energiya", 1976.-104 s. 10. Sposobi ustanovki tenzorezistorov. https://www.tmljp.ru/information/sposoby_ustanovki_t enzorezistorov/ 11.Rabchuk L.V., Xatmullina M. T. Mexanika: Mexanicheskie kolebaniya i volni: labouratorniy praktikum. Ufimsk. gos. avias. texn. unt.-Ufa: RIK UGATU, 2019 12. Larionov A.N., Chernishyov V.V., Larionova N.N.. Osnovnie zakoni dinamiki. Uchebnoe posobie dlya vuzov. -Voronej: IPS Voronejskogo gosudarstvennogo universiteta, 2009. -162 s. 13.Vivod dannix iz EVM. https://www.booksite.ru/fulltext/1/001/008/007/330.ht m
3 14. Yakovlev V.F. Bistriy algoritm opredeleniya ordinat impul'snoy perexodnoy funksii pri vozbujdenii dinamicheskogo ob'ekta test-signalom na osnove dvoichnoy m posledovatel'nosti // Jurnal "Izvestiya Samarskogo nauchnogo sentra Rossiyskoy akademii nauk", t.14, No.4, 2012 15. Obrabotka eksperimental'nix dannix. https://studik.net/obrabotka-eksperimentalnyx-dannyx- 16. Smirnov V.I. Metodi i sredstva funksional'noy diagnostiki i kontrolya texnologicheskix prosessov na osnove elektromagnitnix datchikov. Monografiya / Ul'yanovskiy gosudarstvenniy texnicheskiy universitet.- Ul'yanovsk:UlGTU,2001,-190 s. 17. Gordin P.V., Roslyakov Ye.M., Evelekov V.I. Detali mashin i osnovi konstruirovaniya: Uchebnoe posobie. - SPb .: SZTU, 2006. - 186 s
4 18. Tadaeva E.V, Mamadaliyev X.X. Dvijenie massi xlopka sirsa po koleblyusheysya ploskosti. Jurnal Universum: texnicheskie nauki, No. 10 (67) - 2019. 19. Makarova R.A. Tenzometriya v mashinostroenii, M: izd - vo Mashinostroenie, 1975, - 288 s. 20.Tenzodatchiki v texnike izmereniya davleniya. https://poltraf.ru/publications/davlenie/tenzodatch iki_v_tekhnike_izmereniya/
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