Design and experiments on the key components of BL-600 finger wheel rake

doi:10.12398/j.issn.2096-7217.2023.04.009

Journal of Intelligent Agricultural Mechanization ›› 2023, Vol. 4 ›› Issue (4): 65-70.DOI: 10.12398/j.issn.2096-7217.2023.04.009

Design and experiments on the key components of BL-600 finger wheel rake

YANG Maolin¹^,²(), MOHAMMAD Nizamuddin Inamdar¹, LIU Kunyu³^,⁴, JIAO Wei³^,⁴()

^1.Faculty of Engineering & Built Environment，Lincoln University College，Petaling Jaya 47301，Malaysia
^2.Inner Mongolia Hetao College，Bayannaoer 010000，China
^3.Grassland Research institute Chinese Academy of agriculture science，Hohhot，010010，China
^4.Scientific observing and experimental Station of Grassland Animal Husbandry Equipment, Ministry of Agriculture and Rural Affairs，Hohhot 010010，China

Received:2023-06-10 Revised:2023-10-10 Online:2023-11-15 Published:2023-11-15
Corresponding author: JIAO Wei.E-mail：jiaowei@caas.cn
About author:YANG Maolin，E-mail：387990440@qq.com

Abstract

Abstract:

Under the background of vigorously developing herbage harvesting machinery in China， in order to adapt to the complex ground environment of grass rake operation in Inner Mongolia， reduce the transport area of machinery and tools， and improve work efficiency， the overall structure of BL-600 finger-disc rake and its main component of spring teeth with stress analysis and connecting rod mechanism are mainly carried out in this paper in order to solve the problems， such as large volume of machine transport， difficulty in turning around and easy deformation and breakage of spring teeth. Proe/Mechanica module modeling and simulation methods are used to analyze the stress of the spring teeth， so as that reliable and effective spring teeth materials are determined according to the simulation results. The structure and position of the working machine and the stroke of the oil cylinder are determined through the analysis of the motion of the grass rake. In addition， it improves the adaptability of the whole machine to the working environment. At the same time， the experiment verifies that the leakage rate of the rake is 2%， which meets the design requirement. Through experimental research， it is found that the model has stable performance， strong practicability， and promotion value.

Key words: finger wheel rake, elastic teeth, cylinders, folding motion simulation

CLC Number:

S225.2+7

YANG Maolin, MOHAMMAD Nizamuddin Inamdar, LIU Kunyu, JIAO Wei. Design and experiments on the key components of BL-600 finger wheel rake[J]. Journal of Intelligent Agricultural Mechanization, 2023, 4(4): 65-70.

Figures/Tables 8

Figure 1 Axonometric drawing of the disc rake structure

Figure 2 Force analysis of the disc rake teeth

Table 1 Choice of spring steel material

	极限工况下的分析结果	55Si2Mn材料
最大应力σ/MPa	738.2	785~981
最大位移s/mm	12	40

Figure 3 Strain and strain energy of the disc rake

Figure 4 Curver of strain and displacement in the arc section of the disc rake

Figure 5 Link drive mechanism schematic diagram

Figure 6 Motion trace of the traction mechanism and L–shaped disc rake skeleton

Figure 7 Stroke of the cylinder

References 18

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Design and experiments on the key components of BL-600 finger wheel rake

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