The implement was designed and developed in a workshop held at the Agricultural Engineering Department, College of Agricultural Studies, Sudan University of Science and Technology between April 2011 and June 2012. The implement was constructed from a series of disc blades mounted on a frame. The two discs arranged together with specific space and angles to adapt with cotton stalks pulling operation. The implement mounted on the tractor by three hitches linkage. The field performance test was done for the implementation in Gezira Scheme by measuring the tilt and rake angles parameters, operation speed, pulling operation cost for both systems; manual and mechanical and total cost to product the implement. The experimental design was split plot in a complete randomized block adopted with three replications. The results revealed that the best performance efficiency of the implement (94%) was found at both 30, 20 degrees of tilt angle and rake angle respectively. The suitable operating speed was found to be 2.8 km/h. When estimated, the total cost to achieve the cotton stalks removal per using two systems hand puller and designed implement found that 200,50 SDG required per feddans respectively. The current implement design can be manufactured in both industrial and semi-industrial factories and even small workshops due to design simplicity. Finally it was found that the total manufacturing cost of the implement was 3000 SDG (500$).
展开▼
机译:该机具是在2011年4月至2012年6月于苏丹科学技术大学农业学院农业工程系举行的一个研讨会上设计和开发的。该机具由一系列安装在框架上的圆盘刀片构成。这两个圆盘以特定的空间和角度排列在一起,以适应棉秆的牵引操作。机具通过三个挂钩装置安装在拖拉机上。通过测量两个系统的倾斜角和前角参数,运行速度,牵引运行成本,对Gezira方案中的实施进行了现场性能测试;机械工具的人工和机械及总成本。实验设计是在三个重复的完整随机区组中的分割图。结果表明,在倾斜角度和前角分别为30度和20度时,机具的最佳性能效率(94%)。发现合适的运行速度为2.8 km / h。当进行估算时,使用两个系统的拉拔器和设计的工具来实现去除棉梗的总成本发现,每个联邦政府分别需要200,50 SDG。由于设计简单,当前的机具设计可以在工业和半工业工厂甚至小型车间中制造。最终发现该工具的总制造成本为3000 SDG(500 $)。
展开▼
