Guixiang Tao scite author profile

Because the initial speed of the seeds leaving the seed disk is too high, they collide and bounce off the inner wall of the seed guide tube, resulting in poor sowing quality when corn is sown at high speeds above 12 km/h. This study clarifies the primary factors affecting the stability of seed receiving and the accuracy of the seed entering the seed cavity, establishes the dynamic model of seed clamping, transportation, and releasing, and investigates the belt-type high-speed corn seed guiding device with the seed receiving system as the research object. It also proposes an improved method of adding herringbone lines on the finger surface to address this issue. Using EDEM software, a virtual experiment of seed-receiving performance was conducted, and the change trend of stress on seeds with and without a herringbone pattern and different wheel center distance as well as the change trend of the speed of seeds with various feeder wheel speeds and finger length, were both examined. The outcomes of the simulation demonstrate that the herringbone-lined feeder wheel could increase the stress on seeds. The average value of the stress on the seeds is the highest at the wheels’ center distance of 37 mm. The stability and speed fluctuation of seeds introduced into the seed cavity were better when the feeder wheel speed was 560 r/min. The speed of fluctuation and stability of the seeds introduced into the seed cavity were better when the finger length was 12 mm. The high-speed camera test on the test bench was used to verify the seed guiding process in accordance with the simulation results, and the outcomes were largely consistent. The study’s findings can serve as a theoretical foundation for a belt-type high-speed corn seed guiding device optimization test.

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Design and Experimental Study of Spoon-Clamping Type Garlic Precision Seeding Device

Zhang

Tao

et al. 2022

Wireless Communications and Mobile Computing

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In order to realize the mechanized sowing operation of garlic and ensure that the position of garlic scales is planted upright-position, a spoon-clamping type garlic precision seeding device is designed. The device is composed of seed box, seeder, righting fittings, and so on. This paper adopts the method of theoretical analysis; combined with the characteristics of garlic, the key components of the sowing device have been optimized and designed; and the final form of the device is determined. The one-factor experiment and multifactor experimental studies were carried out, and the optimal working parameter combination of the device was obtained by using the response surface methodology and mathematical modeling method, and finally, the optimized working parameter combination was verified. The results showed that the spoon-clamping type garlic sowing device could meet the operational requirements of garlic mechanized sowing. This study has certain theoretical and practical significance for the mechanization development of garlic.

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Innovation Design of Fertilizing Mechanism of Seeder Based on TRIZ Theory

Liu

Mao

et al. 2018

IFAC-PapersOnLine

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A Rotary Blade Design for Paddy Fields With Long Rice Straw Based on Edem

Tao

2023

Eng. Agríc.

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The paddy field machine uses excessive power during paddy field preparation because of the high distribution density of rice straw. In this study, a rotary blade is created to address this problem. The structural parameters of the rotary blade were designed and the dynamic analysis of the rotary blade's soil-cutting process was completed to establish a model of the rotary blade's power consumption. Through the model, the primary factors influencing the rotary blade's power consumption were identified. A composite soil bin model of rice straw-muddy layer-bottom soil was established in EDEM software, with the bending angle of the front blade, the working width of a single blade, and the thickness of the blade as the test factors. The straw burying rate, power consumption, and surface flatness after rotary tillage were used as evaluation indicators to conduct multi-factor simulation tests on the composite soil bin model. The optimized analysis of the test data showed that the optimal geometric parameters for the rotary blade were 49 mm working width, 108° front blade bending angle, and 4 mm blade thickness. A field verification test was carried out on the optimized rotary blade, and the test results showed that the surface flatness after rotary tillage was 3.25 cm, the qualified rate of rotary tillage depth was 93.3%, and the degree of mud mixing was 3.41 kg/dm 3 , which was suitable for the land preparation requirements of paddy fields.

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Guixiang Tao

Analysis of the Mechanism and Effectiveness of Lignin in Improving the High-Temperature Thermal Stability of Asphalt

Research on Receiving Seeds Performance of Belt-Type High-Speed Corn Seed Guiding Device Based on Discrete Element Method

Design and Experimental Study of Spoon-Clamping Type Garlic Precision Seeding Device

Innovation Design of Fertilizing Mechanism of Seeder Based on TRIZ Theory

A Rotary Blade Design for Paddy Fields With Long Rice Straw Based on Edem

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