Investigation of Working Bodies of the Device for Separation of Fibers Suitable for Spinning from Cotton Waste

作     者：Avazbek Obidov Mirzaolim Sultonov Avazbek Obidov;Mirzaolim Sultonov

作者机构：Namangan Institute of Engineering and Technology Namangan Republic of Uzbekistan 

出 版 物：《Engineering（科研）》 (工程（英文）（1947-3931）)

年 卷 期：2020年第12卷第12期

页      面：893-905页

学科分类：080901[工学-物理电子学] 0809[工学-电子科学与技术（可授工学、理学学位）] 08[工学] 080401[工学-精密仪器及机械] 0804[工学-仪器科学与技术] 0803[工学-光学工程] 

主　　题：Saw Drum Device Cotton Fiber Fiber Waste Down Lint Short Fiber Guide Diameter Steel Coating Strength Strength Reserve Shaft Centrifugal Force Cotton Technology 

摘      要：It is known that fiber wastes (lint, down and seeds) produced at ginneries contain fibers that are suitable for spinning and can be used in industry, and their separation significantly increases the level of fiber production (1.9% - 2.5%). Based on these analyzes, the study aimed to create a new device that separates long fibers from lint and down. As a result, the amount of fiber output in the enterprise will increase and the enterprise will have significant economic benefits. In addition, the introduction of the device will prevent the addition of long fibers (longer than 16 mm) that can be used in the textile industry to the waste. This article focuses on the creation of a fiber separation device suitable for the treatment and spinning of fibrous waste produced in ginneries. The study theoretically examined the main working bodies of the fiber separation device from waste. Theoretical research is devoted to the study of the strength of the main working body of the fiber separation device−the separating saw drum and its shaft. In the study, the sawdust drum is a more stressed steel coating, and it was found that the strength reserve of this drum is [δТ] = 2.03 (where δТ = 0.8 - 2.5) was found to be. As a result of calculating the resistance of the saw drum shaft to stiffness and vibration, it was determined that the shafts are resistant to vibration under periodic loading and that the oscillation frequency along its axis through the critical rotation frequency is vcr=10.3 Gts.