Development of Labor Saving Technique of Maize Harvesting and Ensiling (Part 3)-Development of the Secondary Prototype and the Practical Test-

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  • SHITO Hirokatsu
    The Japanese Society of Agricultural Machinery Bio-oriented Technology Research Advancement Institution, Institute of Agricultural Machinery
  • TAKAHASHI Kimiyasu
    The Japanese Society of Agricultural Machinery Bio-oriented Technology Research Advancement Institution, Institute of Agricultural Machinery
  • YAMANA Nobuki
    The Japanese Society of Agricultural Machinery Bio-oriented Technology Research Advancement Institution, Institute of Agricultural Machinery
  • SHIBUYA Yukinori
    The Japanese Society of Agricultural Machinery Bio-oriented Technology Research Advancement Institution, Institute of Agricultural Machinery
  • OKUMURA Masanobu
    Takakita Co., Ltd.
  • SYOUDA Mikihiko
    Takakita Co., Ltd.
  • FUKUMORI Kouichi
    Takakita Co., Ltd.
  • UEMURA Yuji
    Takakita Co., Ltd.
  • TADANO Katsunori
    Star Farm Machinery Mfg. Co., Ltd.
  • TAMAMORI Yukio
    Star Farm Machinery Mfg. Co., Ltd.
  • TAKADA Masayuki
    Star Farm Machinery Mfg. Co., Ltd.
  • FUKUMORI Isao
    The Japanese Society of Agricultural Machinery Bio-oriented Technology Research Advancement Institution, Institute of Agricultural Machinery

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Other Title
  • 青刈りトウモロコシの省力化収穫調製技術の開発(第3報)―試作2号機の開発と実用化試験―
  • アオガリ トウモロコシ ノ ショウリョクカ シュウカク チョウセイ ギジュツ ノ カイハツ ダイ3ポウ シサク 2ゴウキ ノ カイハツ ト ジツヨウカ シケン
  • Development of the Secondary Prototype and the Practical Test
  • 試作2号機の開発と実用化試験

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Abstract

We developed the first prototype of a roll baler for chopped material and bale wrapper in order to minimize the workload of harvesting and ensiling maize. After studying the problems related to commercialization, we developed a secondary prototype of a roll baler that improved and stabilized bale forming. We also developed a prototype of a bale wrapper that shortened the wrapping time. Tests were conducted to verify the practicability of developed machines at different places under ten different working conditions. The test results demonstrated that the machines performed stably with high adaptability to the present work methods including headland management. The developed machines exhibited excellent quality of the ensiled silage. Furthermore, the machines could be used for forage crops other than maize, verifying the high practicability of the secondary prototype. The developed machines were commercialized in the spring of 2004.

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