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A precision seeding operation system and method based on an unmanned aerial vehicle platform

A precision seeding and operation system technology, applied in the direction of sowing seeders, aircraft parts, launching devices, etc., can solve the problems of reduced efficiency of drone seeding operations, waste of farmland resources, and impact on seed quality, etc., to improve operating efficiency, The effect of reducing the difficulty of operation and simple structure

Active Publication Date: 2016-03-30
湖南星索尔航空科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, during the sowing operation, the seeds are scattered from the seed box into the farmland in a free-fall manner, and the seed spacing is too small; secondly, the sowing in the farmland needs to be sown quantitatively, and the seeds are too dense to affect the quality of the seeds, and the farmland resources are wasted if they are too sparse; The size is affected, the seed box must have a switch control
Therefore, there are still many problems in the seeding operation, such as seed uniformity, farmland seed density, and seed box switch control, which reduce the operating efficiency of drone seeding and the seeding effect is not good.

Method used

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  • A precision seeding operation system and method based on an unmanned aerial vehicle platform
  • A precision seeding operation system and method based on an unmanned aerial vehicle platform
  • A precision seeding operation system and method based on an unmanned aerial vehicle platform

Examples

Experimental program
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Effect test

Embodiment 1

[0063] Such as Figure 1-6 , a precision seeding operation system based on an unmanned aerial vehicle platform, comprising an unmanned aerial vehicle (1) and a sowing device (2) fixed on the unmanned aerial vehicle;

[0064] The sowing device (2) comprises a seed box (15), a fixed seat (16), a wind force seeding device, a quantitative sowing roller (18), a roller blade (19) and a servo motor (22); the servo motor is driven by a battery ;【The battery belongs to the electronic control component part (13)】

[0065] The wind power seeding device is a separate fan (17), and the fan is fixed on the bottom of the holder (16);

[0066] The seed box (15) is fixed on the top of the fixed seat (16); the servo motor (22) is installed on the fixed seat;

[0067] The quantitative sowing roller (18) is installed in the fixed seat; the roller blades 19 are evenly distributed on the quantitative sowing roller 18; the rotating shaft (20) of the quantitative sowing roller (18) passes through t...

Embodiment 2

[0081] Embodiment 2: The difference from Embodiment 1 is that the wind-force scattered seeding device adopts a duct;

[0082] A precision seeding operation system based on an unmanned aerial vehicle platform, comprising an unmanned aerial vehicle (1) and a sowing device (2) fixed on the unmanned aerial vehicle;

[0083] The sowing device (2) comprises a seed box (15), a fixed seat (16), a wind force seeding device, a quantitative sowing roller (18), a roller blade (19) and a servo motor (22); the servo motor is driven by a battery ;【The battery belongs to the electronic control component part (13)】

[0084] The wind power seeding device is an air supply duct composed of a fan and a sleeve; the outlet of the air supply duct is located at the bottom of the fixing seat (16);

[0085] The seed box (15) is fixed on the top of the fixed seat (16); the servo motor (22) is installed on the fixed seat;

[0086] The quantitative sowing roller (18) is installed in the fixed seat; the r...

Embodiment 3

[0101] Such as Figure 1-6 , a precision seeding method based on an unmanned aerial vehicle platform, using an unmanned aerial vehicle as a sowing platform; setting a sowing device (2) on an unmanned aerial vehicle to realize sowing;

[0102] The sowing device (2) comprises a seed box (15), a fixed seat (16), a wind force seeding device, a quantitative sowing roller (18), a roller blade (19) and a servo motor (22); the servo motor is driven by a battery ;【The battery belongs to the electronic control component part (13)】

[0103] The sowing device (2) comprises a seed box (15), a fixed seat (16), a wind force seeding device, a quantitative sowing roller (18), a roller blade (19) and a servo motor (22); the servo motor is driven by a battery ;【The battery belongs to the electronic control component part (13)】

[0104] The wind power seeding device is a separate fan (17), and the fan is fixed on the bottom of the holder (16);

[0105] The seed box (15) is fixed on the top of th...

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Abstract

The invention discloses a precision seeding working system and method based on an unmanned aerial vehicle platform. The system comprises an unmanned aerial vehicle (1) and seeding devices (2) fixed on the unmanned aerial vehicle. Each seeding device (2) comprises a seed box (15), a fixed seat (16), a wind power seed scattering device, a quantitative seeding roller (18), roller blades (19) and a servo motor (22); the servo motor is driven by a battery; the wind power seed scattering device is a fan (17) only or an air supply channel consisting of a fan and a sleeve; the seed box (15) is fixed on the top of the fixed seat (16); the servo motor (22) is mounted on the fixed seat; the quantitative seeding rollers (18) controlled by the servo motor realize precision seeding; by the adoption of the wind power seed scattering device, seeding is uniform. The precision seeding working system based on the unmanned aerial vehicle platform can realize precision seeding work and is high in seeding efficiency and easy to implement.

Description

technical field [0001] The invention relates to a precise seeding operation system and method based on an unmanned aerial vehicle platform. Background technique [0002] At present, my country's agriculture is developing rapidly, and agricultural modernization urgently needs agricultural mechanization and high-efficiency and precise operations. The sowing of existing farmland is a high-tech, high-precision operation, and the sowing effect is obviously affected by various factors, and very high requirements are put forward for the sowing method. The current artificial sowing includes manpower and mechanical sowing. Manpower sowing is not only labor-intensive and inefficient, but also has obvious uneven sowing, which reduces the quality of sowing and takes a lot of time; mechanical sowing replaces manpower sowing, which can effectively improve work efficiency, but the existing mechanical sowing is mainly limited to two forms of hand-held mechanical sowing and walking mechanic...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01C7/16B64D1/02
Inventor 李明吴雄奎艾亮东陈文贵戴思慧张民袁晴春
Owner 湖南星索尔航空科技有限公司
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