Test field corn dibbler

A technology of on-demand seeding device and experimental field, applied in the direction of interval quantitative sowing machinery, etc., can solve problems such as labor-intensive, poor adaptability, and complexity, and achieve the effect of accurate quantity and improved sowing efficiency

Active Publication Date: 2017-12-15
JIAMUSI BRANCH OF HEILONGJIANG ACADEMY OF AGRI SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, manual seeding and self-propelled mechanical seeders are mostly used for sowing in experimental fields. The accuracy of manual seeding test is low, labor-intensive and time-consuming; while self-propelled mechanical seeders are too complicated, require more precise machinery, and are prone to failures and high production costs. additional maintenance costs
[0003] At present, there are two types of seeders commonly used in production fields: one is clamping, and a holder is set on the moving plate, and the work of picking and throwing seeds is completed during the rotation process. This kind of seeder is more precise and easy to sow. Uniform but can only sow seeds of the same variety, which cannot meet the requirements of various test seeds in the test field; the other one uses a spoon to take seeds, and the seed scoop is fixed on the seed plate, which cannot meet the requirements of different sowing distances in the test field. The size of the seed spoon cannot be adjusted according to the size of the seeds and the amount of seeds, and the adaptability is poor

Method used

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  • Test field corn dibbler
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Examples

Experimental program
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Embodiment Construction

[0045] Such as figure 1 with figure 2 As shown, the corn jukebox of the present invention includes a corn jukebox support 1, a rotating shaft 2, a plurality of seeding trays 3, a seeding tray support 4, and a funnel 5. The corn jukebox support 1 includes a first connecting rod 11 and a funnel connecting rod 12. , Two jukebox bracket connecting rods 13 for connecting the first link 11 and the funnel link 12 together, and a rotating shaft fixed on the jukebox bracket connecting rod 13 for supporting the rotating shaft 2 Support rod 14. The first connecting rod 11 and the funnel connecting rod 12 may adopt a telescopic structure composed of multiple sleeves or a long rod structure with adjustable length composed of multiple sleeves spliced ​​and assembled by threaded structures. By adjusting the first connecting rod 11 and the length of the funnel connecting rod 12 are adapted to the length of each ridge in the test field. The first connecting rod 11 and the funnel connecting ro...

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PUM

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Abstract

The invention discloses a test field corn dibbler. The test field corn dibbler comprises a corn dibbler support, a rotating shaft, a plurality of seeding trays, seeding tray supports and a funnel. Gears are installed on the rotating shaft, the seeding trays are installed on the corn dibbler support through the seeding tray supports, and the rotating shaft can drive the seeding trays to rotate through the gears to achieve seeding; the seeding tray supports are installed on the corn dibbler support, and position adjustment can be conducted on the seeding tray supports on the corn dibbler support. The test field corn dibbler is simple in structure, convenient to operate and capable of meeting different plant spacing requirements and achieving the precise seeding function.

Description

Technical field [0001] The invention relates to a corn on-demand device for test fields. Background technique [0002] For corn breeders and test appraisers, annual planting in test fields is an indispensable task, and increasing planting efficiency and saving costs are difficult problems that need to be solved urgently in breeding and appraisal work. At present, artificial on-demand seeding and self-propelled mechanical seeders are mostly used for seeding in experimental fields. Manual seeding test has low precision, labor and time; while self-propelled mechanical seeders are too complicated, require more precise machinery, and are prone to failure and high The amount of maintenance costs. [0003] At present, there are two forms of commonly used production field planters: one adopts a clamping type, a clamp is set on the moving plate, and the seed picking and seeding work is completed during the rotation process. This kind of planter is more precise and sowing. The seeds of the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01C7/18
CPCA01C7/18
Inventor 靳晓春蒋佰福牛忠林邱磊吴丽丽夏永维王庆胜王囡囡宋英博李于李增杰李志民马瑞李如来姚亮亮高丽娟庞海云顾清高雪东刘俊刚
Owner JIAMUSI BRANCH OF HEILONGJIANG ACADEMY OF AGRI SCI
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