Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter

A new hydraulic chassis of rice transplanter is designed based on the paddy machinery operation requirements. Driving system adopts single pump four-motor scheme, and the anti-slide valve group is used to prevent the slippage of the shunt-wound hydraulic motors. Hydraulic steering system adopts sing...

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Bibliographic Details
Main Authors: Kai Hu, Wenyi Zhang
Format: Article
Language:English
Published: SAGE Publishing 2018-10-01
Series:Advances in Mechanical Engineering
Online Access:https://doi.org/10.1177/1687814018808901
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author Kai Hu
Wenyi Zhang
author_facet Kai Hu
Wenyi Zhang
author_sort Kai Hu
collection DOAJ
description A new hydraulic chassis of rice transplanter is designed based on the paddy machinery operation requirements. Driving system adopts single pump four-motor scheme, and the anti-slide valve group is used to prevent the slippage of the shunt-wound hydraulic motors. Hydraulic steering system adopts single-way stable diverter valve for ensuring its response in time. Then, hydraulic system and components parameters are designed and calculated. The driving resistance and average slip rate are measured in paddy field. The experimental data verifies the correctness of theoretical calculation. The designed hydraulic driving system and steering system are simulated in AMESim. The simulated data, including pressure, flow, and torque, basically conform to the design requirement. The results verify the feasibility and reliability of chassis hydraulic scheme. The proposed design scheme may be extended to other vehicles for improving chassis performance.
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spelling doaj.art-effafcbf7fee4d94a4c004c1e262a3dd2022-12-22T01:28:49ZengSAGE PublishingAdvances in Mechanical Engineering1687-81402018-10-011010.1177/1687814018808901Design and simulation for driving system and steering system of hydraulic chassis of rice transplanterKai HuWenyi ZhangA new hydraulic chassis of rice transplanter is designed based on the paddy machinery operation requirements. Driving system adopts single pump four-motor scheme, and the anti-slide valve group is used to prevent the slippage of the shunt-wound hydraulic motors. Hydraulic steering system adopts single-way stable diverter valve for ensuring its response in time. Then, hydraulic system and components parameters are designed and calculated. The driving resistance and average slip rate are measured in paddy field. The experimental data verifies the correctness of theoretical calculation. The designed hydraulic driving system and steering system are simulated in AMESim. The simulated data, including pressure, flow, and torque, basically conform to the design requirement. The results verify the feasibility and reliability of chassis hydraulic scheme. The proposed design scheme may be extended to other vehicles for improving chassis performance.https://doi.org/10.1177/1687814018808901
spellingShingle Kai Hu
Wenyi Zhang
Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
Advances in Mechanical Engineering
title Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
title_full Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
title_fullStr Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
title_full_unstemmed Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
title_short Design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
title_sort design and simulation for driving system and steering system of hydraulic chassis of rice transplanter
url https://doi.org/10.1177/1687814018808901
work_keys_str_mv AT kaihu designandsimulationfordrivingsystemandsteeringsystemofhydraulicchassisofricetransplanter
AT wenyizhang designandsimulationfordrivingsystemandsteeringsystemofhydraulicchassisofricetransplanter