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Measurement system and measurement method for high-flux plant full-life-cycle phenotypic information

A full life cycle, measurement system technology, applied in the field of agricultural and forestry plant phenotypic characteristic information measurement equipment, can solve the problems of lagging development of phenotype research technology, lack of standardized characterization, and failure to meet actual needs, etc., to achieve good use and promotion value , ingenious conception, and the effect of accelerating the progress of breeding

Pending Publication Date: 2021-04-27
WUXI VOCATIONAL & TECHN COLLEGE
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Problems solved by technology

[0003] Plant phenotype refers to the observable morphological characteristics of plants under specific growth conditions (different growth environments, different growth stages, etc.), such as shape, structure, size and color, etc., which are important influencing factors in the process of agricultural and forestry production practices , but due to its own complexity and dynamic changes, the development of phenotype research technology is relatively lagging behind, and it has become a bottleneck in the development of new plant varieties.
Traditional phenotypic detection mainly uses naked eye observation and simple measurement tools to measure plant phenotypic traits. It lacks standardized characterization and cannot meet the actual needs of agricultural and forestry production practices; therefore, it is necessary to design a new equipment to meet the measurement requirements. Requirements for the use of plant phenotypic traits

Method used

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  • Measurement system and measurement method for high-flux plant full-life-cycle phenotypic information
  • Measurement system and measurement method for high-flux plant full-life-cycle phenotypic information

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Embodiment Construction

[0045] Refer to attached Figure 1-4 , a high-throughput plant life cycle phenotypic information measurement system, has an automatic collection device that can move in three-dimensional space, and the automatic collection device includes a grabbing device 2, a conveyor 1, an information collection device 3 and a controller 7. The controller 7 is respectively connected to the grasping device 2, the conveyor 1, and the information collection device 3 with signals;

[0046] The conveyor 1 is a belt conveyor, a chain conveyor or a roller conveyor; preferably a belt conveyor and a chain conveyor, more preferably a belt conveyor; the conveying stability of the belt conveyor is better than that of the chain conveyor The conveying stability of the chain conveyor is better than that of the roller conveyor; and the driving motor on the belt conveyor requires less power than the chain conveyor, and it is quiet and easy to maintain.

[0047] The conveyor 1 is a commercially available pr...

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Abstract

The invention relates to the technical field of agriculture and forestry plant phenotypic characteristic information measuring equipment, in particular to a greenhouse high-throughput plant full-life-cycle phenotypic information measuring system and a greenhouse high-throughput plant full-life-cycle phenotypic information measuring method. A high-flux plant full-life-cycle phenotypic information measuring system is provided with an automatic collecting device capable of moving in a three-dimensional space, wherein the automatic collecting device comprises a grabbing device, a conveyor, an information collecting device and a controller. The controller is in signal connection with the grabbing device, the conveyor and the information collecting device. The conveyor is a belt conveyor, a chain plate conveyor or a roller conveyor, preferably belt conveyors and chain scraper conveyors, and further preferably belt conveyors. Herein, the conveying stability of the belt conveyor is superior to that of a chain plate conveyor, and the conveying stability of the chain plate conveyor is superior to that of a roller conveyor; and the power required by a driving motor on the belt conveyor is smaller than that required by the chain plate conveyor.

Description

technical field [0001] The invention relates to a measurement system and measurement method for high-throughput plant life cycle phenotype information, which relates to the technical field of agricultural and forestry plant phenotype characteristic information measurement equipment, specifically to the high-throughput plant life cycle phenotype information in greenhouses. Measurement system and measurement method. [0002] technical background [0003] Plant phenotype refers to the observable morphological characteristics of plants under specific growth conditions (different growth environments, different growth stages, etc.), such as shape, structure, size and color, etc., which are important influencing factors in the process of agricultural and forestry production practices , but due to its own complexity and dynamic changes, the development of phenotype research technology is relatively lagging behind, and it has become a development bottleneck in the field of new plant v...

Claims

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Application Information

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IPC IPC(8): G01N21/84G01N21/01
CPCG01N21/84G01N21/01G01N2021/8466G01N2021/0112
Inventor 焦祥王骏彭辰晨陆忠华
Owner WUXI VOCATIONAL & TECHN COLLEGE
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