Reliability analysis method for self-adaptive ear height shifting type intelligent breeding system
An analysis method and self-adaptive technology, applied in the direction of botanical equipment and methods, applications, data processing applications, etc., can solve the problems of consuming manpower and material resources, poor practical applicability, and low production efficiency, so as to improve quality and output, The effect of improving breeding efficiency and reducing labor intensity
Active Publication Date: 2021-09-17
YANGZHOU UNIV
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Problems solved by technology
The current breeding method consumes manpower and material resources, has low production efficiency, and cannot meet the requirements of modern seed production. At the same time, the existing mechanized auxiliary devices have shortcomings such as low integration and easy damage, and their practical applicability is not strong.
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[0029] A method for analyzing the reliability of the self-adaptive ear height picking and receiving type intelligent breeding system of the present embodiment mainly includes the following steps:
[0030] S1. Three-dimensional modeling of intelligent breeding system:
[0031] This system uses SolidWorks software for modeling, which can be classified into five subsystems, namely drive system 1, lifting system 2, fringe picking system 3, retracting system 4 and detection system 5. Among them, the driving system 1 is responsible for providing power for the advancement of the device; the lifting system 2 is responsible for lifting the arc platform and the parts on it; Rope retraction; detection system 5 is responsible for detecting the environment of the paddy field, ensuring that the current conditions are suitable for pollination, etc., and the five systems cooperate with each other to complete the auxiliary pollination work of the paddy field.
[0032] S2. Determination of dif...
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The invention discloses a reliability analysis method for a self-adaptive ear height shifting type intelligent breeding system. The method comprises the following steps: S1, carrying out three-dimensional modeling on the intelligent breeding system; S2, determining different working conditions of a breeding system based on an orthogonal test; S3, carrying out load calculation under complex working conditions based on dynamic simulation; S4, carrying out statics analysis and checking of the intelligent breeding system; and S5, carrying out system fatigue life analysis based on stress curve correction. The method can effectively replace manpower to carry out supplementary pollination, the pollination efficiency can be improved, the rice planting cost is reduced, and the mechanization rate in the rice planting process is improved.
Description
technical field [0001] The invention relates to the field of mechanically assisted pollination, in particular to a method for analyzing reliability of an adaptive panicle height selection intelligent breeding system. Background technique [0002] Rice is one of the main food crops, and there are many related studies on hybrid rice with wide adaptability and high yield. The current breeding method consumes manpower and material resources, has low production efficiency, and cannot meet the requirements of modern seed production. At the same time, the existing mechanized auxiliary devices have shortcomings such as low integration and easy damage, and their practical applicability is not strong. [0003] In this context, the inventive method proposes an adaptive panicle height picking and receiving type intelligent breeding system, which carries out ear picking breeding work through adaptive rice panicle height, and combines dynamic, static and fatigue life analysis to analyze i...
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IPC IPC(8): G06F30/23A01H1/02G06Q50/02G06F111/04G06F119/04G06F119/02G06F119/14
CPCG06F30/23A01H1/027G06Q50/02G06F2111/04G06F2119/04G06F2119/02G06F2119/14
Inventor 丁忆凡朱林邱建春王鹏邢本傲
Owner YANGZHOU UNIV