Engenharia Agrícola (Jun 2024)
OPTIMIZATION AND TEST OF THE OPERATING PARAMETERS OF A CAMELLIA OLEIFERA FRUIT PICKING DEVICE UNDER THE SYNERGISTIC ACTION OF A VIBRATION COMB
Abstract
ABSTRACT There are significant differences in the quantities of Camellia oleifera fruits growing within and outside the canopy distribution, meaning that a single mode of picking has drawbacks. To improve the harvesting efficiency for the inner and outer layers, this article proposes a synergistic mode of harvesting based on a vibration comb brush, and presents a design for a harvesting device based on this principle. The overall structure and working principle of the proposed device are explained, and the operational processes of the vibration and comb parts of the device are analyzed. ADAMS software is used to construct a rigid-flexible coupling model of the device and the fruiting branch, and simulation results are presented to show that the fruit drop and flower loss rates for Camellia oleifera are related to the vibration frequency, the amplitude, and the spacing between the teeth and comb plates. Finally, a three factor and three level field orthogonal experiment was conducted, and the results showed that under the conditions of vibration frequency 5.85Hz, amplitude 60.43mm, and comb spacing 45mm, the flower loss rate was the lowest and it had good picking performance. Under these conditions, the fruit drop rate is 87.32% and the flower loss rate is 8.06%, values that meet the requirements for mechanized picking of Camellia oleifera fruits.
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