A Study on Adjustment Optimization for Dynamic Balancing Test of Helicopter Main Rotor Blade

Song, Keun-Woong; Choi, Jong‐Soo

doi:10.5050/ksnve.2016.26.6.736

Cited by 1 publication

(2 citation statements)

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“…Excavation depth (𝐷): 5 measurement points were selected equidistantly within each measurement area, and the vertical distance from the maximum excavation depth to the surface of the last plowed land was measured by using a steel plate ruler and recorded as the excavation depth. The average excavation depth 𝐷 is calculated by Equation (21).…”

Section: Field Trials 61 Test Conditions and Methodsmentioning

confidence: 99%

“…The single pendulum shovel fence is a light and simple energy-saving harvesting device developed by the author's team based on the technological innovation of crank rocker mechanism rocker amplitude and directional vibration. Previous experimental studies on cassava, licorice, and other root crop harvesting have shown that the monoshaker grate harvesting device has low vibration cutting resistance, low ineffective energy consumption for soil transport, high efficiency for vertical separation of materials during harvesting, and good potential for application in root crops, especially deep root crops harvesting [20][21][22][23] , but the working characteristics of the monoshaker grate are not clear, and the mechanism of energy-saving operation is not clear, which restricts its technical maturation and However, the working characteristics of a single-swing fence are not clear, and the mechanism of energy-saving operation is not clear.…”

Section: Introductionmentioning

confidence: 99%

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Gradient throwing characteristics of oscillating slat shovel for rhizome crop harvesters

Wan,

Li,

Zhao

et al. 2022

Advan. Mod. Agr.

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<p>An oscillating slat shovel has presented a promising application potential in the energy-saving and efficient harvesting of deep rhizome crops. This new type of shovel slat integrated harvesting device was developed using gradient amplitude and gradient vibration technology. This study aims to clarify the working characteristics of oscillating slat shovels and the mechanism of throwing separation. The throwing coefficient was selected to characterize the throwing separation ability of the slat shovel work plane. A motion analysis was made to calculate the swing acceleration of the slat shovel work plane. An analytical equation of the throwing coefficient was then established to combine with the working process, the periodic variation of the throwing coefficient, and the influence of parameters, including the amplitude, vibration frequency, and working length. The results showed that the throwing coefficient gradually increased at each point of the slat shovel work plane, indicating outstanding gradient throwing characteristics and strong throwing ability. The maximum throwing coefficient was 9.98–19.72 in the separation area. After that, an investigation was made to determine the influence of the structure and working parameters of the oscillating slat shovel on the soil-throwing separation performance. The EDEM-MBD coupling simulation model of the single pendulum shovel gate was established to simplify the structural model and the interaction between the rhizome, soil, and working components, where the indicators were set as the traction resistance, driving torque, the maximum separation distance between the soil and the slat (separation distance), and the ratio of the separated soil quality of each functional area of the work-plane to the total soil mass (separation ratio). A single-factor test was carried out with the amplitude, vibration frequency, and forward speed as factors. The results indicated that: 1) There were outstanding strong-weak cycles in the traction resistance and driving torque due to the gradient throwing characteristics of the oscillating slat shovel, soil viscosity, and plasticity. In the strong period, there was a large interaction force between the shovel slat and soil, where the maximum separation distance occurred at the middle point of the separation area at the endpoint of the cutting stroke. 2) The amplitude was negatively correlated to the traction resistance but positively correlated with the driving torque and separation distance. The vibration frequency was negatively correlated to the traction resistance, driving torque, and separation spacing. The forward velocity was positively correlated to traction resistance and driving torque but negatively correlated to the separation distance. 3) There was a small influence of amplitude and vibration frequency on the separation ratio. There was a low separation of oscillating slat shovels with the increase in forward velocity. 4) A combination of parameters was achieved when the amplitude was 7–11 mm in the strong period, where the average traction resistance was about 1580.93–2019.9 N, the maximum driving torque was about 224.04–322.11 N·m, and the maximum separation distance was about 59.58–98.3 mm. 5) The average traction resistance was about 1416.43–1866.38 N, the maximum driving torque was about 315.28–364.19 N·m, and the maximum separation distance was about 78.43–94.67 mm when the vibration frequency was 6.67–10.67 Hz. 6) The average traction resistance was about 1429.43–2110.48 N, the maximum driving torque was about 241.27–387.78 N·m, and the maximum separation distance was about 62.5–102.5 mm when the forward speed was 0.2–0.4 m/s. An optimal combination of parameters was selected for the field experiment: the amplitude was 9 mm, the vibration frequency was 9.4 Hz, and the working speed was 0.32 m/s. The licorice harvesting test indicated that the traction resistance was about 32.17 kN, the driving torque was about 802.02 N·m, the excavation depth was about 468 mm, and the cleaning rate was about 96.42%. Consequently, the oscillating slat shovel harvesting device can be feasible for smooth and orderly operation as well as the higher separation performance of rhizome-soil, where all the operation indexes meet the national standards. This finding can provide a new method and design reference for the energy-saving and efficient harvesting of rhizomes, especially deep rhizome crops.</p>

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Section: Field Trials 61 Test Conditions and Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%