Li Jun, Lu Huazhong, Yang Zhou, Chen Ziliang, Huang Jiecong. Design and experiment of Canavalia shelling mechanism[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2013, 29(1): 26-32.
    Citation: Li Jun, Lu Huazhong, Yang Zhou, Chen Ziliang, Huang Jiecong. Design and experiment of Canavalia shelling mechanism[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2013, 29(1): 26-32.

    Design and experiment of Canavalia shelling mechanism

    • Abstract: The traditional method of shelling of Canavalia pods is manually, labour intensive and tedious. To realize the mechanized shelling operation and improve the shelling efficiency in pod processing, a prototype machine of mechanical cracker was developed in this study. The shelling unit comprises a pair of shelling rollers which are gear shaped structure. The pods to be shelled fall into the shelling unit by gravity and are shelled by impact action. The shelled kernels and the broken pods drop to the conveyor to be collected. The shelling principle of the proposed mechanism is based on the ripping and rubbing effects by compressing and shearing action together. The shelling machine is easy to operate and maintain, cost-effective and environmentally friendly. With a roller clearance adjustment device, the proposed shelling machine for Canavalia pods is able to meet the wide range of shelling requirements such as different varieties, shapes and sizes. The shelling unit was presented in terms of structural features, work principle and parameter determination. Mathematic models describing the motion of pods were developed to study the equivalent force and friction angle to break whole pods in the shelling chamber. For the actual motion of the processing pod may differ from what in theory, it is essential to perform experimental verification. To determine the parametric combinations that would yield the optimum machine performance, the four-factor mixed-level orthogonal experiments for the prototype were carried out with two varieties of Canavalia, namely ensiformis and gladiate. Statistical analysis showed that the contact material of shelling roller related to the friction coefficient had highly significant effects on the shelling efficiency. It was found that the rotational speed of shelling roller did not show a significant difference for the percent damage. The comprehensive performance evaluation was used for analyzing the results to determine the effects of technical parameters on the shelling efficiency and percent damage. The results showed that the varieties of Canavalia made the strongest unique contribution to the integrative index, followed by the tip clearance between shelling rollers, rotational speed of shelling roller and contact material of shelling roller, respectively. It was found that the best operation conditions are at rotational speed of shelling roller of 25 r/min, tip clearance between shelling rollers of 18 mm with rubber as contact material of shelling roller and Canavalia ensiformis as the variety to be shelled. The research results can provide references for the overall design and optimization of Canavalia crackers to improve the product quality.
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