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JP3547362B2 - Leaf removal device for root crops - Google Patents

Leaf removal device for root crops Download PDF

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Publication number
JP3547362B2
JP3547362B2 JP2000096659A JP2000096659A JP3547362B2 JP 3547362 B2 JP3547362 B2 JP 3547362B2 JP 2000096659 A JP2000096659 A JP 2000096659A JP 2000096659 A JP2000096659 A JP 2000096659A JP 3547362 B2 JP3547362 B2 JP 3547362B2
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Japan
Prior art keywords
rotary
shaft
cutter
cutting
belt
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JP2000096659A
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Japanese (ja)
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JP2001275428A (en
Inventor
宏信 東
博之 千葉
将人 杉岡
成徳 斎藤
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Kubota Corp
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Kubota Corp
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Description

【0001】
【発明の属する技術分野】
本発明は、圃場から持ち上げられた根菜を吊り下げ姿勢で挟持搬送して葉部切断用の回転カッターに供給する切断用無端搬送ベルトと、根菜が回転カッターに供給される際の根菜の前記回転カッターに対する位置決めを行うべく根菜に当接作用する位置決め無端回動帯状体とを備えてある根菜類収穫機の葉部除去装置に関する。
【0002】
【従来の技術】
上記根菜類収穫機において、従来、たとえば特開平9−308346号公報に示されるように、位置決め無端回動帯状体、切断用無端搬送ベルト、回転カッターそれぞれの駆動軸に伝動チェーンを巻回することにより、位置決め無端回動帯状体、切断用無端搬送ベルト、回転カッターそれぞれに駆動力を伝達するようにしていた。
【0003】
【発明が解決しようとする課題】
この種の根菜類収穫機にあっては、位置決め無端回動帯状体、切断用無端搬送ベルト、回転カッターに対する伝動手段は、根菜搬送の障害にならないようにそれらの下方に配置することから、搬送される根菜から土や泥が落ちることがあれば、伝動手段を内部に設けている伝動ケースの上に落下しやすくなる。従来、伝動手段としてチェーン式を採用していたことから伝動ケースが大型化するとともに偏平な形状になり、根菜から落ちた土や泥が伝動ケースに堆積しやすくなっていた。
本発明の目的は、上記したトラブルを回避しやすい状態で前記無端帯状体や搬送ベルトとかカッターを駆動できる根菜類収穫機の葉部除去装置を提供することにある。
【0004】
【課題を解決するための手段】
請求項1による発明の構成、作用、効果はつぎのとおりである。
【0005】
〔構成〕
圃場から持ち上げられた根菜を吊り下げ姿勢で挟持搬送して葉部切断用の回転カッターに供給する切断用無端搬送ベルトと、根菜が回転カッターに供給される際の根菜の回転カッターに対する位置決めを行うべく根菜に当接作用する位置決め無端回動帯状体とを備え、切断用無端搬送ベルトの下方に駆動自在な回転伝動軸を切断用無端搬送ベルトによる搬送方向に平行に設けるとともに、この回転伝動軸を切断用無端搬送ベルト、位置決め無端回動帯状体、回転カッターそれぞれの駆動軸にギヤ機構を介して連動させてある根菜類収穫機の葉部除去装置において、
回転伝動軸として、位置決め無端回動帯状体と回転カッターそれぞれの駆動軸にベベルギヤ機構を介して連動している回転伝動軸と、回転カッターと切断用無端搬送ベルトそれぞれの駆動軸にベベルギヤ機構を介して連動している回転伝動軸とを同一の軸芯まわりで回転するように配置して備えてあるとともに、回転カッターの駆動軸を、両回転伝動軸にベベルギヤ機構を介して連動している回転筒軸と、この回転筒軸に一体回転自在に係合した状態で、かつ、回転筒軸の軸芯方向に摺動調節自在に内嵌しているとともに回転カッターに一体回転自在に連結しているカッター支軸とによって構成してある
【0006】
〔作用〕
切断用無端搬送ベルト、位置決め無端回動帯状体、回転カッターそれぞれの駆動軸にギヤ機構を介して駆動自在な回転伝動軸が連動しており、切断用無端搬送ベルト、位置決め無端回動帯状体および回転カッターに対する伝動手段である回転伝動軸やギヤ機構を内部に設ける伝動ケースとして、従来のチェーン用伝動ケースに比して小型であるとか、丸みがある形状とかの伝動ケースを採用しながら切断用無端搬送ベルト、位置決め無端回動帯状体、回転カッターそれぞれを駆動できる。
また、両回転伝動軸の一方の伝動軸からカッター駆動軸を介して他方の伝動軸に動力伝達するものだから、カッター支軸を回転筒軸に対して摺動調節して回転カッターの高さ調節することを可能にしながら、両回転伝動軸を同一の軸芯まわりで回転するように直線状に配置しながら位置決め帯状体、搬送ベルト、回転カッターのそれぞれに動力伝達できる。すなわち、回転伝動軸を一本軸にし、この回転伝動軸の横側にカッター駆動軸が位置する配置関係を採用して回転カッターの高さ調節を可能にするに比し、伝動ケースを小型化しながら回転カッターの高さ調節を可能にできる。
【0007】
〔効果〕
したがって、切断用や位置決めの搬送ベルトとか無端回動帯状体、カッターに対する伝動手段を比較的小型であるなど、土や泥が堆積しにくい伝動ケースの内部に設け、根菜から土や泥が落ちても伝動ケースに堆積して駆動障害になるなどのトラブルを回避しながら駆動できる。
また、回転カッターの高さ調節を行って葉部の切断位置を調節できるものでありながら、伝動ケースとして小型なケースを採用してより土や泥の堆積が発生しにくいようにできるとともに軽量化できる。
【0012】
【発明の実施の形態】
図1、図2に示すように、左右一対のクローラ式走行装置1、搭乗して運転するように運転座席2aを設けた運転部2、運転座席2aの下方に位置するエンジンEを有する原動部を備えている走行機体の前記運転部2の横側方に、左右一対の分草装置11,11、収穫部支持用の一つの車輪12などを備えている収穫部10を連結してある。前記収穫部10の収穫部フレームが備える左右一対の機体前後向きのメインフレーム13aの上方で、収穫部10の葉部除去装置20の下方に前端側が位置している根菜コンベア40、この根菜コンベア40の後端側の運転部側の横側で走行機体の後端部に位置する選別コンベア48、この選別コンベア48の搬送終端側で運転部2の後方に位置する回収部50、この回収部50の後側に位置する小荷台51、走行機体の前記収穫部10が位置する側とは反対の横側に運転部2の横外側から前記回収部50の横外側にわたって位置する機体前後方向に長い大荷台52、運転部2と大荷台52と回収部50と選別コンベア48と収穫部10とで囲われた容器積載部53のそれぞれを走行機体に設けてある。前記エンジンEの駆動力を前記収穫部10および各コンベア40,48に伝達するように構成し、もって、乗用型の人参収穫機を構成してある。この人参収穫機は、収穫部10の左右の分草装置11が圃場に植生している人参の列の両横側に別れてその人参列に沿って移動していくように走行機体を走行させることにより、人参aを葉部bが付いたままで圃場から抜き上げ、人参aの下端側に付いているひげ根と、上端側に付いている葉部bの除去処理を行い、ひげ根と葉部bがなくなった人参aを回収部50でコンテナなどの容器54に回収していき、人参aから除去したひげ根と葉部bとを圃場に放出していくものであり、詳しくは、次の如く構成してある。
【0013】
図1、図5などに示すように、前記左右一対のメインフレーム13aの基端側どうしを連結する連結フレームに兼用の取付け筒体13bが走行機体の機体フレーム3の後部に立設されている左右一対の支持体4にわたって回動自在に連結していることによって、走行機体の機体フレーム3に取付け筒体13bの機体横向きの軸芯Pまわりで上下揺動自在に支持されている前記左右一対のメインフレーム13aと、各メインフレーム13aの基端部に立設した後支柱13cと、両メインフレーム13aの中間部どうしにわたって取付けた収穫部伝動ケース60と、この収穫部伝動ケース60の両端側から機体上方でかつ前方向きに延出している抜き上げ伝動ケース61と、前記収穫部伝動ケース60の一端側から機体前方向きに延出している分草伝動ケース62と、前記収穫部伝動ケース60の両端側に立設した前支柱13dとによって、収穫部フレームを構成してある。
【0014】
この収穫部フレームは、前支柱13dと後支柱13cとの間で左右のメインフレーム13aにわたって連結しているシリンダ連結部材13eにピストンロッドが連結し、シリンダチューブが走行機体の機体フレーム3に連結している油圧式のリフトシリンダ5によって走行機体に対して上下に揺動される。
【0015】
図1、図2などに示すように、前記収穫部フレームと、この収穫部フレームの前記メインフレーム13aの先端側と前記抜き上げ伝動ケース61の延出端側とにわたって取付けた抜き上げ装置14と、この抜き上げ装置14の右側装置部の下端側と前記分草伝動ケース62の延出端側とにわたって取付けた前記右側の分草装置11と、この右側の分草装置11の上端側から延出する伝動ケース63と前記抜き上げ装置14の左側装置部の下端側とにわたって取付けた前記左側の分草装置11と、前記各メインフレーム13aの先端側から延出している支持アーム13fによって支持されている土ほぐし刃15と、抜き上げ装置14の前端側の下方で左右のメインフレーム13aにわたって取付けたひげ根切断装置16と、前記前支柱13dと前記後支柱13cの上端側どうしにわたって取付けた葉部除去装置20とによって、前記収穫部10を構成してある。
【0016】
左右の分草装置11は、引き起こし分草ケース11aの内部に駆動回動自在に設けた無端回動チェーンが引き起こし爪11bを引き起こし分草ケース11aから前方向きに突出する取付け姿勢で上昇移動させる引き起こし分草装置と、この引き起こし分草装置の下端側から前方向きに延出しているすくい杆11cとで成り、このすくい杆11cによって圃場に散在するワラ屑をすくい上げたり、圃場に植生している収穫対象の人参aの葉部bをすくい上げ、収穫対象の人参の葉部を引き起こし分草装置の上昇移動する引き起こし爪11bによる梳き上げ作用によって分草および引き起こし処理する。
【0017】
左右の土ほぐし刃15は、収穫対象の人参aの横側で土壌に入り込み、抜き上げ装置14が人参aを引き上げる際に人参aが土壌から抜け出やすいように土壌をほぐし処理する。
【0018】
抜き上げ装置14は、無端搬送ベルト14aが機体後方側に至るほど高い配置レベルに位置する後上がり傾斜の姿勢で抜き上げフレームに駆動回動自在に支持されている前記左側装置部と、この左側装置部と同様に、無端搬送ベルト14aが機体後方側に至るほど高い配置レベルに位置する後上がり傾斜の姿勢で抜き上げフレームに駆動回動自在に支持されている前記右側装置部とで成り、前記分草装置11と土ほぐし刃15が作用した後の人参aの葉部bを左右の無端搬送ベルト14aによって挟持して持ち上げながら機体後方向きに搬送していくことにより、収穫対象の人参aを葉部bが付いたままで圃場から抜き上げて吊り下げ姿勢で機体後方に上方向きに搬送していく。
【0019】
ひげ根切断装置16は、前記抜き上げ装置14によって搬送される人参aが移動していく経路に配置したガイド体、このガイド体の内側に回転自在に設けた回転カッター16a、この回転カッター16aを駆動する電動モータ16bとで成り、抜き上げ装置14が圃場から抜き上げて搬送していく人参aの先端側に付いているひげ根をガイド体によって回動する回転カッター16aに導入し、このカッター16aで切断して人参aから分離させ、分離したひげ根を圃場に落下させて放出する。
【0020】
図1、図6などに示すように、葉部除去装置20は、収穫部フレームの前記前支柱13dと後支柱13cとによって支持される左右一対の鋳造製の伝動ケース21と、この両伝動ケース21の前端側の上方に設けた位置決め装置22と、両伝動ケース21の後端側の上方に設けた切断用搬送装置25と、この切断用搬送装置25と前記抜き上げ装置14の搬送終端部との間に設けた排葉搬送装置30と、前記切断用搬送装置25の途中の下方に配置して両伝動ケース21それぞれの上側に駆動回動自在に取付けた回転カッター35とによって構成してある。
【0021】
図6などに示すように、位置決め装置22は、前記左右の伝動ケース21それぞれの上側に回転自在に取付けた前後一対のスプロケット23a,23bにわたって無端型の位置決めチェーン24を巻回するとともに、左右いずれの位置決めチェーン24も後側の駆動自在なスプロケット23bによって駆動するようにして構成してある。
【0022】
すなわち、図12、図14などに示すように、左右の位置決めチェーン24それぞれのリンクプレートに、位置決めローラ24aが先端側に回転自在に付いている位置決めロッド24bを摺動自在に備えさせるとともに、位置決めチェーン24のリンクプレートが備えるロッド支持具24cと、位置決めロッド24bが備えるばね受けプレートとの間に配置した挟持ばね24dを位置決めロッド24bに外嵌させてある。抜き上げ装置14の途中で、抜き上げ装置14が持ち上げ搬送していく人参aの葉部bの抜き上げ装置14の無端搬送ベルト14aが挟持している部分と人参aとの間が左右の位置決めチェーン24における位置決めローラ24aどうしの間に入り込み、この後も抜き上げ装置14は人参aを持ち上げ搬送していき、位置決め装置22は左右の位置決めチェーン24によって葉部bを挟持して吊り下げ姿勢で前記回転カッター35の方に移送していく。このとき、位置決め装置22が挟持ばね24dによって発揮する挟持力と、抜き上げ装置14が備えている挟持力とに差を設けてあることと、抜き上げ装置14が人参aを持ち上げていくこととにより、人参aは左右の位置決めローラ24aどうしの間に入り込んでから後方に移送されるに伴って位置決めローラ24aに対して上昇操作され、位置決め装置22の搬送終端側では、図13に示す如く人参aの上端が位置決めローラ24aに当接してこの位置決めローラ24aが人参aに対してそれ以上は上昇しないようにストッパー作用する。これにより、位置決め装置22は、人参aが回転カッター35に供給されてその葉部bが切断される際には、人参aの上端からわずかに上側に離れている部分で切断されるように、人参aが回転カッター35に供給される際の人参aの回転カッター35に対する位置決めを行う。
【0023】
図6などに示すように、切断用搬送装置25は、前記左右の伝動ケース21それぞれの上側に回転自在に取付けた前後一対のベルトプーリ26a,26bにわたって無端搬送ベルト27を巻回するとともに、左右いずれの搬送ベルト27も後側の駆動自在なベルトプーリ26bによって駆動するようにして構成してある。切断用搬送装置25における左右の搬送ベルト27の搬送始端側は、抜き上げ装置14の搬送終端部の下方で、位置決め装置22の搬送終端部の上方に配置してある。これにより、切断用搬送装置25は、位置決め装置22による位置決めが完了した後の人参aの葉部bを左右の搬送ベルト27によって抜き上げ装置14と位置決め装置22とから受け継いで挟持し、機体後方向きに吊り下げ姿勢で搬送して左右の回転カッター35の間に供給する。そして、カッター35によって切断されて人参aから離れた排葉をそのまま挟持してさらに機体後方向きに搬送してカッター35の後方で挟持を解除する。
【0024】
図6、図9などに示すように、排葉搬送装置30は、抜き上げ装置14の左側装置部のフレームと切断用搬送装置25のフレームとによって支持されるフレームが回転自在に備えている前後一対のスプロケット31a,31bにわたって、搬送用突起が付いている無端チェーン32を巻回するとともに、この無端チェーン32を前側の駆動自在なスプロケット31aによって駆動するように構成し、無端チェーン32の搬送作用部に沿う機体前後向きの搬送ガイドレール33を抜き上げ装置14の右側装置部のフレームに支持させて構成してある。
【0025】
図6に示すように、前記左右の伝動ケース21それぞれの入力軸21aを、抜き上げ装置14の無端搬送ベルトの搬送終端側を巻回しているベルト駆動プーリ14bに動力伝達するチェーン14cを巻回させた動力取り出し軸14dに連動させて、抜き上げ搬送装置14から伝達する駆動力によって位置決め装置22の位置決めチェーン24、および、切断用搬送装置25の無端搬送ベルト27を駆動するようにしてある。伝動ケース21の内部に設けたベベルギヤで成る伝動機構の減速作用や、位置決めチェーン24や無端搬送ベルト27が巻回するスプロケット23aやプーリ26aの径の設定により、位置決め装置22や切断用搬送装置25での搬送速度が抜き上げ装置14での搬送速度より低速になるようにしてある。すなわち、抜き上げ装置14の搬送終端側は、搬送終端側に至るほど位置決め装置22や切断用搬送装置25との間隔が大になる配置状態にあるが、位置決め装置22や切断用搬送装置25が人参aを搬送する際、位置決め装置22と抜き上げ装置14との間や、切断用搬送装置25と抜き上げ装置14との間で葉部bの引き千切れが生じないように搬送する。
【0026】
排葉搬送装置30の前記前側のスプロケット31aを駆動する駆動軸34を、抜き上げ装置14の左側装置部における無端搬送ベルト14aの搬送終端側を巻回しているベルト駆動プーリ14bと一体回転するプーリ支軸14eに自在継ぎ手を介して連結し、抜き上げ装置14から伝達する駆動力によって排葉搬送装置30の無端チェーン32を駆動するようにしてある。排葉搬送装置30による葉部bの搬送速度が、切断用搬送装置25による葉部bの搬送速度よりも高速になるように、前側スプロケット31aの大きさを設定してある。
【0027】
したがって、排葉搬送装置30は、位置決め装置22と抜き上げ装置14とからの葉部bの切断用搬送装置25が受け継ぎ挟持する部分よりも葉先側に位置する部分を無端チェーン32と搬送ガイドレール33とによって受け継いで挟持して搬送ガイドレール33に沿わせて機体後方向きに搬送し、回転カッター35によって人参aから切断された後にも切断用搬送装置25が搬送していく部分よりやや先行させて搬送して切断用搬送装置25よりもやや後方で挟持を解除して落下させる。
【0028】
これにより、収穫部10は、リフトシリンダ5を駆動操作することにより、このリフトシリダ5による収穫部フレームの揺動操作のために軸芯Pまわりで上下に揺動して走行機体に対して昇降し、分草装置11が圃場近くに位置するとともに土ほぐし刃15が土壌に入り込む作業レベルに下降したり、分草装置11や土ほぐし刃15が圃場から浮上した非作業レベルに上昇したりする。そして、作業レベルにして走行機体を走行させると、収穫対象の人参aの葉部bを分草装置11によって非収穫対象の人参の葉と分離させるとともに引き起こし、土ほぐし刃15の作用によって土壌から抜け出やすくなった人参aを抜き上げ装置14によって圃場から抜き上げるとともにひげ根切断装置16に供給してひげ根を除去する。ひげ根が除去された人参aを抜き上げ装置14によって吊り下げ状態でさらに持ち上げ搬送して葉部除去装置20に供給し、この葉部除去装置20の位置決め装置22と切断用搬送装置25とによって人参aが回転カッター35に当らないようにしながらこの回転カッター35に供給して葉部bを切断除去し、葉部bが除去された人参aを前記根菜コンベア40の搬送始端側に落下させて供給していく。人参aから切り離れた排葉を切断用搬送装置25と排葉搬送装置30とによってカッター35の後方まで搬送して落下させる。このとき、図8に示すように、排葉の基端側が切断用搬送装置25によって、葉先側が排葉搬送装置30によってそれぞれ搬送されることと、葉先側が基端側よりも先行して搬送されていることとにより、排葉は葉先側ほど後方側に位置するやや後倒れの姿勢で放出され、搬送装置に引っ掛かりにくい状態で落下する。両搬送装置25,30から放出された排葉は、両搬送装置25,30やカッター35の周囲を覆っているカバー37に基端側が支持されているシュート38に落下させ、このシュート38の上を機体後方側に下降させて根菜コンベア40の後側でシュート38から落下させて圃場に放出していく。
【0029】
図15、図16などに示すように、根菜コンベア40は、走行機体の機体フレーム3の後端部に立設した左右一対のブラケット6に後端部がコンベア駆動軸41を介して支持され、前端側が前記葉部除去装置20の位置決め装置22の下方に位置している左右一対のコンベアフレーム42に、両コンベアフレーム42の前端部どうしの間、中間部どうしの間、後端部どうしの間のそれぞれに回転自在に取付けたベルトローラ43を介してコンベアベルト44を回動自在に支持させるとともに、後端側のベルトローラ43が、これを支持するローラ支軸43a、このローラ支軸43aの一端側を前記コンベア駆動軸41の一端側に連動させているギヤ機構を介して前記コンベア駆動軸41によって駆動されてコンベアベルト44を駆動するようにして構成してある。
【0030】
これにより、根菜コンベア40は、葉部除去装置20が葉部bを切断して切断用搬送装置25から人参aを落下させると、その人参aをコンベアベルト44の搬送始端側で受け止め、このコンベアベルト44の上に載置して機体後方側に搬送する。
【0031】
図2、図15などに示すように、根菜コンベア40におけるコンベアベルト44の搬送終端部の上方にガイドローラ57を駆動自在に設けてある。このガイドローラ57は、回転軸芯が根菜コンベア40の搬送方向に対して傾斜し、かつ、前記選別コンベア48の側に位置する方の端が反対側の端よりも根菜コンベア40の搬送下手側に位置する配置姿勢にあり、根菜コンベア40が搬送してきた人参aを前記配置姿勢と回転とによって根菜コンベア40からこれの横外側に移動するように案内して選別コンベア48に移動させる。
【0032】
選別コンベア48は、機体横方向に並ぶ複数本の駆動自在なローラで成り、根菜コンベア40からの人参aを走行機体の収穫部10が位置する側の横端側から運転部2が位置する他端側に向けて搬送して前記回収部50に供給する。この選別コンベア48は、作業者が選別コンベア48の後側を歩行して機体に追随して移動しながら選別処理することができるように走行機体の後端部に位置しているとともにその搬送速度で搬送する。
【0033】
回収部50は、コンテナなどの容器54を載置し、選別コンベア48によって人参aを容器54に送り込ませて回収するものである。
【0034】
小荷台51は、空であるとか人参回収が済んだ容器54を搭載するなどに使用するものであり、一端側に配置した機体横向きの軸芯51aまわりで上下に揺動操作できるように走行機体の機体フレーム3の後端部に連結してある。すなわち、小荷台51を軸芯51aまわりで機体後方側に揺動操作し、回収部50の後方側に張り出した取付け姿勢にすると、小荷台51は使用姿勢になる。小荷台51の遊端側が回収部50に入り込んだ取付け姿勢にすると、小荷台51は回収部50にたたみ込んだ格納姿勢になる。
【0035】
大荷台52は、空であるとか人参回収が済んだ容器54を搭載するなどに使用するものであり、一端側に配置した機体前後向きの軸芯52aまわりで揺動操作できるように走行機体の機体フレーム3の横端部に連結してある。すなわち、図17に示すように、大荷台52を軸芯52aまわりで下降揺動させて大荷台52の裏面側に取付けてある補強杆52bの一端側が機体フレーム3の横端部の下面側に当接して受け止め支持される取付け姿勢にすると、大荷台52は、これの荷載置面52cが回収部50よりも機体横外側に水平又はほぼ水平に張り出して容器54などを積み込めるように使用姿勢になる。そして、大荷台52を軸芯52aまわりで上昇揺動させて機体フレーム3の荷台支持部から機体上方向きに延出する取付け姿勢にすると、大荷台52は、使用姿勢の場合よりも機体内側に引退し、回収部50よりも機体横外側で荷載置面52cが機体上下方向に沿った格納姿勢になる。この場合、走行機体側から延出しているロック部材を大荷台52に係止させて、大荷台52を格納姿勢に固定する。
尚、大荷台52の後端側に連結リンク55aを介して補助荷台55を連結してある。この補助荷台55は、連結リンク55aの大荷台52および補助荷台55に対する回動によって、大荷台52の方に揺動させてこれの荷載置面52cに重ねることによって格納状態になり、機体後方側に揺動させて大荷台52から後方向きに延出させることによって使用状態になる。
【0036】
図15に示すように、前記根菜コンベア40の左右のコンベアフレーム42を機体フレーム3の前記左右のブラケット6に取付けている前記コンベア駆動軸41が左右のコンベアフレーム42およびブラケット6を回転自在に貫通していることにより、根菜コンベア40は搬送終端側に位置するコンベア駆動軸41の機体横向きの軸芯41aまわりで走行機体に対して上下に揺動する。
【0037】
図15、図16に示すように、根菜コンベア40の搬送始端側で左右のコンベアフレーム42にわたって連結している支持杆45の両端側に上端側が回動自在に連結しているリンク体によって、根菜コンベア40の左右一対の脚部46を構成し、この各脚部46に設けた機体上下方向の長孔46aに先端側が摺動自在に入り込み、基端側が前記メインフレーム13aに締め付け固定されている軸部材によって、収穫部フレームと共に走行機体に対して昇降するように収穫部フレームに備えさせたコンベア昇降操作体47aを構成し、この左右一対のコンベア昇降操作体47aと、前記左右一対の脚部46とにより、収穫部10の走行機体に対する昇降に連係させて根菜コンベア40を自動的に軸芯43aまわりで上下揺動させる調節機構47を構成してある。
【0038】
すなわち、図15(イ)に示すように、収穫部10がこれを昇降操作できる昇降域Hの下降エンド側の低レベル側昇降域部分LHで昇降する際は、各コンベア昇降操作体47aが脚部46の長孔46aの内部を移動するだけで脚部46に対して押し上げ操作や受け止め支持を行わず、左右の脚部46は走行機体の機体フレーム3に設けてある支持部3aに載って受け止め支持されて根菜コンベア40の搬送始端側を所定の配置レベルに支持する状態になり、根菜コンベア40は、脚部46による支持と、機体フレーム3のブラケット6による支持とのために収穫部10からの人参aを機体後方向きに搬送するための取付け姿勢を維持する。図15(ロ)に示すように、収穫部10が前記昇降域Hの前記低レベル側昇降域部分LHよりも上昇エンド側の高レベル側昇降域部分HHで昇降する際は、各コンベア昇降操作体47aが脚部46の長孔46aの上端部に位置し、リフトシリンダ5による上昇操作力のために脚部46を押し上げ操作することによって根菜コンベア40を上昇操作したり、リフトシリンダ5による下降操作のために脚部46を受け止め支持しながら下降操作することによって根菜コンベア40を下降操作する。前記低レベル側昇降域部分LHとしては、収穫作業を行う際に収穫部10が持ち上げ操作されるものとして設定した最高の高さと下降エンドとの間の昇降域を設定してある。
【0039】
したがって、調節機構47は、根菜コンベア40を次の如く調節する。すなわち、収穫部10が低レベル側昇降域部分LHに位置する際には、収穫部10が上下揺動しても、根菜コンベア40は人参搬送を支障なく行う搬送用の取付け姿勢から上下に揺動しなくてその搬送用取付け姿勢を維持するように調節し、収穫部10が高レベル側昇降域部分HHに位置する際には、収穫部10が上下揺動すればそれに追随して根菜コンベア40が収穫部10の昇降方向と同じ方向に上下揺動するように調節する。これにより、収穫作業を行う際は、収穫部10の分草装置11、土ほぐし刃15や抜き上げ装置14の高さ調節を行っても、根菜コンベア40は搬送用の取付け姿勢を維持していて収穫部10からの人参aを選別コンベア48にスムーズに供給しながら作業できる。そして、旋回時など収穫作業しないで走行する際は、収穫部10を上昇させると根菜コンベア40も上昇し、収穫部10を十分高く持ち上げて走行できる。
【0040】
排葉除去装置20における左右の装置部それぞれの伝動構造を、図6、図7に示す如く構成してある。
すなわち、前記伝動ケース21の前記入力軸21aに一端側がベベルギヤ21bを介して連動することによって駆動される第1回転伝動軸21cを伝動ケース21の内部の前記入力軸21aと、前記回転カッター35の駆動軸36との間に位置決め装置22や切断用搬送装置25による搬送方向と平行に設け、この第1 回転伝動軸21cの中間部を、この第1 回転伝動軸21cに一体回転自在に取付けたベベルギヤと、位置決めチェーン24の駆動軸23cに一体回転自在に取付けたベベルギヤとで成るギヤ機構G1を介してそのチェーン駆動軸23cに連動させてある。前記第1 回転伝動軸21cの入力側とは反対側の端部を、この第1 回転伝動軸21cに一体回転自在に取付けたベベルギヤと、回転カッター35の前記駆動軸36に一体回転自在に取付けたベベルギヤとで成るギヤ機構G2を介してそのカッター駆動軸36に連動させてある。このカッター駆動軸36に一端側がベベルギヤ21dを介して連動することによって前記第1 回転伝動軸21cからの駆動力によって駆動される第2 回転伝動軸21eを、伝動ケース21の内部のカッター駆動軸36と、切断用搬送装置25の無端搬送ベルト27の駆動軸28との間に、前記第1 回転伝動軸21cと同一の軸芯まわりで回転するように配置して設け、この第2 回転伝動軸21eの他端側を、この第2 回転伝動軸21eに一体回転自在に取付けたベベルギヤと、前記ベルト駆動軸28に一体回転自在に取付けたベベルギヤとで成るギヤ機構G3を介してそのベルト駆動軸28に連動させてある。
【0041】
図10、図11に示すように、回転カッター35の前記駆動軸36を、前記第1 及び第2 回転伝動軸21c,21eに前記ギヤ機構G2やベベルギヤ21dを介して連動しているとともに伝動ケース21に回転のみ自在に支持されている回転筒軸36aと、この回転筒軸36aにこの回転筒軸36aの軸芯方向に摺動自在に内嵌しているとともに上端部が回転カッター35に一体回転自在に連結しているカッター支軸36bとによって構成してある。回転筒軸36aの上端側部分36cを六角筒軸で形成し、カッター支軸36bの上端側部分を、回転筒軸36aの前記上端側部分36cに一体回転自在に係合する六角軸に形成することにより、カッター支軸36bを回転筒軸36aに対して一体回転するように連結してある。前記カッター支軸36bの伝動ケース21から下方に突出している端部に連結具80を介して先端部が連結している調節ねじ軸81を、伝動ケース21に基端側が固定されている支持体82の先端側のねじ部82aに装着し、もって、調節ねじ軸81の回転操作により、回転カッター35による葉の切断位置を調節するように回転カッター35の高さ調節を行う調節機構を構成してある。
【0042】
すなわち、連結具80は、カッター支軸36bの端部にベアリング80aを介して相対回転するように取付け、抜け止めボルト83などによってカッター支軸36bの軸芯方向には相対移動しないように係合させ、支持体82に対してこれの長孔に入り込む係止部80bによって回り止めされながらカッター支軸36bの軸芯方向に摺動するように係合させてある。調節ねじ軸81の先端部は、連結具80に対して相対回転するように取付け、位置決めナット84と止め輪とによって連結具80を押し引き操作するように係合させてある。これにより、調節ねじ軸81の下端側に付設してある操作具81aを回転操作する。すると、調節ねじ軸81が支持体82に対して正回転や逆回転方向に回転し、連結具80を介してカッター支軸36bを回転筒軸36aに対して上昇側や下降側に摺動操作する。カッター支軸36bが回転筒軸36aに対して上昇すると、回転カッター35がカッター支軸36bと共に上昇して回転カッター35の伝動ケース21に対する取付け高さが高くなり、回転カッター35の位置決めチェーン24の位置決めローラ24aに対する高さが調節前よりも高くなる。カッター支軸36bが回転筒軸36aに対して下降すると、回転カッター35がカッター支軸36bと共に下降して回転カッター35の伝動ケース21に対する取付け高さが低くなり、回転カッター35の位置決めチェーン24の位置決めローラ24aに対する高さが調節前よりも低くなる。
【0043】
前記エンジンEの駆動力を走行装置1、収穫部10、両コンベア40,48に伝達する伝動構造を、図3〜図5に示すように構成してある。
【0044】
すなわち、エンジンEの出力プーリ64の回転駆動力を伝動ベルト65により、走行用ミッション66の主変速部である静油圧式の無段変速装置67の入力プーリ67aに伝達し、この無段変速装置67の出力部に副変速装置および操向クラッチを介して連動している走行用ミッション66の左右の走行用出力軸66aを左右の走行装置1のクローラ駆動スプロケットに連結してある。
【0045】
走行用ミッション66の前記無段変速装置67の出力部に連動していて、無段変速装置67によって走行装置1と同調させて変速される作業用出力プーリ66bの回転駆動力を、伝動ベルト68により、収穫部フレームの前記取付け筒体13bを貫通している中間伝動軸69の機体内側の端部に伝達し、この中間伝動軸69の機体外側の端部から伝動ベルト70によって前記収穫部伝動ケース60の内部に設けた伝動軸60aに伝達し、この伝動軸60aから前記左側の抜き上げ上げ伝動ケース61の内部に設けた伝動軸61aによって抜き上げ装置14の左側装置部のベルト駆動チェーン14cに、前記右側の抜き上げ上げ伝動ケース61の内部に設けた伝動軸61aによって抜き上げ装置14の右側装置部のベルト駆動チェーン14cに伝達するようにしてある。前記抜き上げ伝動ケース61の前記伝動軸61aから前記分草伝動ケース62の内部に設けた伝動軸62aによって前記右側の分草装置11の分草引き起こし装置に、前記分草伝動ケース62の前記伝動軸62aと、前記伝動ケース63の内部に設けた伝動軸63aとによって前記左側の分草装置11の分草引き起こし装置にそれぞれ伝達するようにしてある。前記抜き上げ装置14の左側装置部のベルト駆動チェーン14cの駆動力を葉部除去装置20の前記左側の伝動ケース21の入力軸21aに伝達し、抜き上げ装置14の右側装置部のベルト駆動チェーン14cの駆動力を葉部除去装置20の前記右側の伝動ケース21の入力軸21aに伝達するようにしてある。抜き上げ装置14の左側装置部のベルト駆動チェーン14cの駆動力を排葉搬送装置30のチェーン駆動スプロケット31aに伝達するようにしてある。
【0046】
エンジンEの前記出力プーリ64の回転駆動力を伝動ベルト71によって第1 中間伝動軸72の一端側に伝達し、この第1 中間伝動軸72の他端側から伝動ベルト73によって第2 中間伝動軸74の一端側に伝達する。この第2 中間伝動軸74の駆動力を、この第2 中間伝動軸74の一端側に巻回している伝動ベルト75により、ウォームとウォームホィールとで成る減速装置76の入力プーリ76aに伝達し、この減速装置76の出力スプロケット76bの回転駆動力を伝動チェーン77によって選別コンベア48の駆動スプロケット48aに伝達するようにしてある。前記第2 中間伝動軸74の回転駆動力を、この第2 中間伝動軸74の入力側とは反対側の端部に巻回している伝動チェーン78によって根菜コンベア40の前記コンベア駆動軸41に伝達するとともに分岐伝達機構79の入力スプロケット79aに伝達する。この分岐伝達機構79の出力スプロケット79bの駆動力を、伝動チェーン57aによって前記ガイドローラ57に伝達するようにしてある。
【0047】
〔別実施形態〕
本発明は、人参の他、大根や玉ねぎなど各種の作物を収穫対象とする収穫機にも適用できるのであり、これら、人参、大根、玉ねぎなどを総称して根菜と呼称する。
【0048】
前記位置決めチェーン24に替え、無端ベルトなどを採用して実施してもよいのであり、これらチェーン24や無端ベルトなどを総称して位置決め無端回動帯状体と呼称する。
【図面の簡単な説明】
【図1】乗用型人参収穫機の全体の側面図
【図2】乗用型人参収穫機の全体の平面図
【図3】伝動系統図
【図4】伝動系統図
【図5】伝動構造の平面図
【図6】葉部除去装置と排葉搬送装置の側面図
【図7】葉部除去装置の伝動ケースの平面図
【図8】排葉の放出状態を示す説明図
【図9】排葉搬送装置の平面図
【図10】回転カッター取付け構造の断面図
【図11】連結具と支持体との係合を示す平面図
【図12】位置決め装置の断面図
【図13】位置決め装置、切断用搬送装置、排葉搬送装置の断面図
【図14】位置決めチェーンの一部の平面図
【図15】根菜コンベアの側面図
【図16】調節機構の正面図
【図17】荷台の姿勢変更を示す説明図
【符号の説明】
21d ギヤ機構
23c 位置決め無端回動帯状体の駆動軸
24 位置決め無端回動帯状体
27 切断用無端搬送ベルト
28 切断用無端搬送ベルトの駆動軸
35 回転カッター
36 回転カッターの駆動軸
36a 回転筒軸
36b カッター支軸
a 根菜
b 葉部
G1,G2,G3 ギヤ機構
[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides an endless transport belt for cutting, which feeds a root vegetable lifted from a field in a suspended posture and supplies the root vegetable to a rotary cutter for cutting leaves, and the rotation of the root vegetable when the root vegetable is supplied to the rotary cutter. The present invention relates to a leaf removing device for a root crop harvesting machine, which comprises a positioning endless rotating belt-shaped body which abuts on root crop to perform positioning with respect to a cutter.
[0002]
[Prior art]
Conventionally, in the root crop harvesting machine, as shown in, for example, Japanese Patent Application Laid-Open No. 9-308346, a transmission chain is wound around drive shafts of a positioning endless rotating belt-like body, a cutting endless transport belt, and a rotary cutter. Thereby, the driving force is transmitted to each of the positioning endless rotating belt-like body, the cutting endless transport belt, and the rotary cutter.
[0003]
[Problems to be solved by the invention]
In this kind of root crop harvester, the positioning endless rotating belt-like body, the endless transport belt for cutting, and the transmission means for the rotary cutter are arranged below them so as not to hinder the root crop transport, so If soil or mud falls from the root vegetables to be produced, the soil or mud is likely to fall onto the transmission case in which the transmission means is provided. Conventionally, since a chain type is adopted as the transmission means, the size of the transmission case is increased and the transmission case is formed into a flat shape, so that soil and mud dropped from root vegetables are easily accumulated on the transmission case.
An object of the present invention is to provide a leaf removing device for a root crop harvesting machine that can drive the endless belt-shaped body, the conveyor belt, and the cutter in a state where the above-described trouble is easily avoided.
[0004]
[Means for Solving the Problems]
The configuration, operation and effect of the invention according to claim 1 are as follows.
[0005]
〔Constitution〕
Endless transport belt for cutting, which feeds the root vegetables lifted from the field in a suspended posture and supplies it to the rotary cutter for cutting leaves, and positions the root vegetables with respect to the rotary cutter when the root vegetables are supplied to the rotary cutter. And a rotatable transmission shaft that is drivable below the endless transport belt for cutting is provided in parallel with the transport direction of the endless transport belt for cutting. Are linked to the drive shafts of the endless transport belt for cutting, the positioning endless rotating belt, and the rotary cutter via a gear mechanism.In the leaf removal device of the root crop harvester,
As a rotary transmission shaft, a rotary transmission shaft interlocked with the drive shaft of the positioning endless rotary belt and the rotary cutter via a bevel gear mechanism, and a rotary shaft with a bevel gear mechanism on the drive shaft of the rotary cutter and the endless transport belt for cutting. The rotation transmission shaft that is interlocked with the rotation transmission shaft is provided so as to rotate around the same axis, and the drive shaft of the rotary cutter is interlocked with both rotation transmission shafts via a bevel gear mechanism. In a state in which the cylindrical shaft is rotatably engaged with the rotary cylindrical shaft, and is fitted inside the rotary cylindrical shaft so as to be slidably adjustable in the axial direction thereof, and is integrally rotatably connected to the rotary cutter. And the cutter support shaft.
[0006]
[Action]
An endless transport belt for cutting, a positioning endless rotating belt, and a rotary transmission shaft that is drivable via a gear mechanism to each drive shaft of the rotary cutter are interlocked. As a transmission case that has a rotary transmission shaft and gear mechanism, which are the transmission means for the rotary cutter, inside, it is smaller than a conventional chain transmission case or has a rounded shape. It can drive the endless transport belt, the positioning endless rotating belt, and the rotary cutter.
Also, since power is transmitted from one of the two rotation transmission shafts to the other transmission shaft via the cutter drive shaft, the height of the rotary cutter is adjusted by slidingly adjusting the cutter support shaft with respect to the rotary cylinder shaft. Power can be transmitted to each of the positioning band, the transport belt, and the rotary cutter while the two rotation transmission shafts are linearly arranged so as to rotate about the same axis. In other words, the size of the transmission case is reduced as compared with the case where the rotation transmission shaft is made to be a single shaft, and the height of the rotation cutter can be adjusted by adopting the arrangement relationship in which the cutter drive shaft is located on the side of the rotation transmission shaft. It is possible to adjust the height of the rotary cutter.
[0007]
〔effect〕
Therefore, such as cutting and positioning conveyor belts, endless rotating belts, and a relatively small transmission means for the cutter, are provided inside a transmission case where soil and mud are difficult to accumulate, and soil and mud fall from root vegetables. Can also be driven while avoiding troubles such as accumulation in the transmission case and causing a drive failure.
In addition, while the height of the rotary cutter can be adjusted to adjust the cutting position of the leaves, a small case is used as the transmission case to reduce the accumulation of dirt and mud and reduce weight. it can.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
As shown in FIGS. 1 and 2, a pair of left and right crawler-type traveling devices 1, a driving unit 2 provided with a driving seat 2 a for riding and driving, and a driving unit having an engine E located below the driving seat 2 a. A harvesting unit 10 including a pair of left and right weeding devices 11, 11 and a single wheel 12 for supporting the harvesting unit is connected to the lateral side of the driving unit 2 of the traveling machine having the harvesting unit. A root vegetable conveyor 40 whose front end is located above the pair of left and right body front-rear facing main frames 13a of the harvest part frame of the harvest part 10 and below the leaf part removing device 20 of the harvest part 10, this root vegetable conveyor 40 The sorting conveyor 48 located at the rear end of the traveling machine body on the side of the driving unit on the rear end side, the collecting unit 50 located behind the operating unit 2 at the transport end side of the sorting conveyor 48, and the collecting unit 50 The luggage carrier 51 located on the rear side of the traveling body is longer in the longitudinal direction of the body located from the lateral outside of the operating unit 2 to the lateral outside of the collecting unit 50 on the lateral side opposite to the side where the harvesting unit 10 is located. Each of the large loading platform 52, the operation unit 2, the large loading platform 52, the collection unit 50, the container loading unit 53 surrounded by the sorting conveyor 48, and the harvesting unit 10 is provided on the traveling body. The driving force of the engine E is configured to be transmitted to the harvesting unit 10 and each of the conveyors 40 and 48, thereby constituting a riding type ginseng harvester. In this ginseng harvester, the weeding device 11 on the left and right of the harvesting unit 10 is separated on both sides of a row of ginseng vegetated in a field, and the traveling body travels along the ginseng row. Thus, the ginseng a is pulled out of the field with the leaf b attached, and the beard root attached to the lower end side of the ginseng a and the leaf b attached to the upper end side are removed, and the beard root and the leaves are removed. The ginseng a having no part b is collected in a container 54 such as a container by the collection part 50, and the beard root and the leaf b removed from the ginseng a are released to the field. It is configured as follows.
[0013]
As shown in FIGS. 1, 5 and the like, a mounting cylinder 13b serving also as a connecting frame for connecting the base ends of the pair of left and right main frames 13a is provided upright at the rear of the body frame 3 of the traveling body. The pair of right and left supports rotatably connected to each other over the pair of right and left supports 4 so as to be vertically swingable around the horizontal axis P of the body of the mounting cylinder 13b on the body frame 3 of the traveling body. Of the main frame 13a, a rear support column 13c erected at the base end of each main frame 13a, a harvesting part transmission case 60 attached across the middle part of both main frames 13a, and both ends of the harvesting part transmission case 60 And a pull-up transmission case 61 extending upward and forward from the body, and a portion extending forward from the one end of the harvesting unit transmission case 60. The transmission case 62, by the front post 13d erected on both sides of the harvesting unit transmission case 60, are configured harvesting unit frame.
[0014]
In this harvesting unit frame, a piston rod is connected to a cylinder connecting member 13e that is connected across the left and right main frames 13a between the front support 13d and the rear support 13c, and a cylinder tube is connected to the body frame 3 of the traveling body. The hydraulic lift cylinder 5 swings up and down with respect to the traveling machine body.
[0015]
As shown in FIGS. 1 and 2, the harvesting unit frame, and a pulling-up device 14 attached to a front end side of the main frame 13 a of the harvesting unit frame and an extending end side of the pulling-up transmission case 61. The right weeding device 11 attached to the lower end side of the right device portion of the pulling-up device 14 and the extending end side of the weeding transmission case 62, and extending from the upper end side of the right weeding device 11. It is supported by the left weeding device 11 attached over the transmission case 63 that extends out and the lower end of the left device portion of the pull-out device 14, and the support arms 13f extending from the front end side of each of the main frames 13a. And a whisker cutting device 16 attached to the left and right main frames 13a below the front end side of the pulling-up device 14, and the front support 13d. The leaf portion removing device 20 which is mounted over the upper end side to each other of the serial rear post 13c, have configured the harvesting unit 10.
[0016]
The weeding device 11 on the left and right causes the endless rotating chain, which is rotatably provided inside the weeding case 11a, to cause the claw 11b to move upward in a mounting posture protruding forward from the weeding case 11a. It consists of a weeding device and a rake rod 11c extending forward from the lower end side of the inducing weeding device. The leaf b of the ginseng a to be harvested is scooped, the leaves of the ginseng to be harvested are raised, and the weeding device is moved upward by the raising mechanism of the weeding device, and the weeding and raising is performed by the combing action of the claws 11b.
[0017]
The left and right soil loosening blades 15 enter the soil on the side of the ginseng a to be harvested, and loosen the soil so that the ginseng a easily comes off the soil when the extracting device 14 lifts the ginseng a.
[0018]
The pulling-up device 14 is configured such that the endless transport belt 14a is located at a higher arrangement level as it reaches the rear side of the fuselage. Similarly to the device portion, the endless transport belt 14a is located at a higher arrangement level as it reaches the rear side of the fuselage. The leaf part b of the ginseng a after the action of the weeding device 11 and the earth loosening blade 15 acts and is conveyed in a rearward direction of the machine body while being nipped and lifted by the left and right endless conveying belts 14a, thereby obtaining a ginseng a to be harvested. Is pulled out of the field with the leaf b attached, and is conveyed upward to the rear of the machine in a suspended posture.
[0019]
The whisker cutting device 16 includes a guide member arranged on a path along which the ginseng a conveyed by the extracting device 14 moves, a rotary cutter 16a rotatably provided inside the guide member, and a rotary cutter 16a. The ginseng a, which is driven by an electric motor 16b that is driven by the pulling device 14, pulls out from the field and transports the ginseng to the rotating cutter 16a that is rotated by a guide body. Cut at 16a to separate it from ginseng a, and the separated beard roots are dropped into the field and released.
[0020]
As shown in FIGS. 1 and 6, the leaf removing device 20 includes a pair of left and right cast transmission cases 21 supported by the front support 13 d and the rear support 13 c of the harvesting unit frame. A positioning device 22 provided above the front end of the transmission case 21, a transporting device 25 for cutting provided above the rear end of both transmission cases 21, and a transporting end portion of the transporting device 25 and the pulling-up device 14. And a rotary cutter 35 disposed below and in the middle of the cutting transport device 25 and mounted to be rotatable on the upper side of each of the two transmission cases 21. is there.
[0021]
As shown in FIG. 6 and the like, the positioning device 22 winds an endless positioning chain 24 over a pair of front and rear sprockets 23a, 23b rotatably mounted on the upper side of the left and right transmission cases 21, respectively. The positioning chain 24 is also configured to be driven by a sprocket 23b that is freely driven on the rear side.
[0022]
That is, as shown in FIGS. 12 and 14, the link plates of the left and right positioning chains 24 are slidably provided with positioning rods 24b having positioning rollers 24a rotatably attached to the distal ends thereof. A holding spring 24d arranged between a rod support 24c provided on the link plate of the chain 24 and a spring receiving plate provided on the positioning rod 24b is fitted to the positioning rod 24b. In the middle of the pulling device 14, left and right positioning is performed between the portion of the leaf portion b of the ginseng a which is lifted and transported by the pulling device 14 and which is gripped by the endless transport belt 14a of the pulling device 14 and the ginseng a. The pull-in device 14 lifts and conveys the ginseng a afterwards between the positioning rollers 24a of the chain 24, and the positioning device 22 holds the leaf b by the left and right positioning chains 24 in a suspended posture. It is transferred to the rotary cutter 35. At this time, a difference is provided between the holding force exerted by the positioning device 22 by the holding spring 24d and the holding force of the pulling device 14, and that the pulling device 14 lifts the ginseng a. As a result, the ginseng a enters between the left and right positioning rollers 24a and is then moved rearward with respect to the positioning rollers 24a as it is transported backward, so that the ginseng a at the transport end side of the positioning device 22 as shown in FIG. The upper end of a is in contact with the positioning roller 24a and acts as a stopper so that the positioning roller 24a does not rise further with respect to the ginseng a. Thereby, when the ginseng a is supplied to the rotary cutter 35 and the leaf portion b is cut, the positioning device 22 is cut at a portion slightly upward from the upper end of the ginseng a. When the ginseng a is supplied to the rotary cutter 35, the ginseng a is positioned with respect to the rotary cutter 35.
[0023]
As shown in FIG. 6 and the like, the cutting conveyance device 25 winds the endless conveyance belt 27 over a pair of front and rear belt pulleys 26a and 26b rotatably mounted on the upper sides of the left and right transmission cases 21, and Each of the transport belts 27 is configured to be driven by a belt drivable belt pulley 26b on the rear side. The transport start ends of the left and right transport belts 27 in the cutting transport device 25 are arranged below the transport end of the pulling-up device 14 and above the transport end of the positioning device 22. Accordingly, the cutting transport device 25 holds the leaf portion b of the ginseng a after the positioning by the positioning device 22 is completed by the right and left transport belts 27 while inheriting the leaf portion b from the pulling-up device 14 and the positioning device 22, The paper is conveyed in a hanging posture and supplied between the left and right rotary cutters 35. Then, the leaves that have been cut by the cutter 35 and separated from the ginseng a are pinched as they are, and further conveyed in the machine rearward direction to release the pinching behind the cutter 35.
[0024]
As shown in FIGS. 6, 9, etc., the leaf discharging and conveying device 30 includes a frame supported by the frame of the left device of the pulling-up device 14 and the frame of the cutting and conveying device 25, which is rotatable before and after. An endless chain 32 having a transfer projection is wound around a pair of sprockets 31a and 31b, and the endless chain 32 is configured to be driven by a front drivable sprocket 31a. A transport guide rail 33 extending in the front-rear direction of the machine along the section is supported by a frame of a right side apparatus section of the pulling-up apparatus 14.
[0025]
As shown in FIG. 6, the input shaft 21a of each of the left and right transmission cases 21 is wound around a chain 14c that transmits power to a belt drive pulley 14b that winds around the conveyance end side of the endless conveyance belt of the pull-out device 14. The positioning chain 24 of the positioning device 22 and the endless transport belt 27 of the cutting transport device 25 are driven by the driving force transmitted from the pull-up transport device 14 in conjunction with the driven power take-off shaft 14d. The positioning device 22 and the cutting conveyance device 25 are set by the speed reducing action of the transmission mechanism composed of a bevel gear provided inside the transmission case 21 and the setting of the diameter of the sprocket 23a and the pulley 26a around which the positioning chain 24 and the endless conveyance belt 27 are wound. At a lower speed than the transport speed at the extraction device 14. That is, the transport end side of the pulling-up device 14 is in an arrangement state in which the distance from the positioning device 22 and the cutting transport device 25 increases toward the transport end side, but the positioning device 22 and the cutting transport device 25 are When the ginseng “a” is transported, the leaves “b” are transported between the positioning device 22 and the pulling-up device 14 and between the cutting transporting device 25 and the pulling-up device 14 so as not to tear off.
[0026]
A pulley that integrally rotates a drive shaft 34 that drives the front sprocket 31a of the leaf discharge and transport device 30 with a belt drive pulley 14b that winds around the transport end side of the endless transport belt 14a in the left device portion of the pull-out device 14. The endless chain 32 of the leaf feeding and conveying device 30 is driven by a driving force transmitted from the pulling-up device 14 by being connected to the support shaft 14e via a universal joint. The size of the front sprocket 31a is set so that the transport speed of the leaf b by the leaf discharge transport device 30 is faster than the transport speed of the leaf b by the cutting transport device 25.
[0027]
Therefore, the leaf discharging and conveying device 30 uses the endless chain 32 and the conveying guide to move the portion of the leaf portion b located closer to the leaf tip than the portion that the cutting and conveying device 25 receives and clamps from the positioning device 22 and the pulling-up device 14. It is inherited and pinched by the rail 33 and transported along the transport guide rail 33 in the rearward direction of the machine body, and slightly ahead of the portion transported by the cutting transport device 25 after being cut from the ginseng a by the rotary cutter 35. Then, the sheet is conveyed, released from being held slightly behind the cutting conveyance device 25, and dropped.
[0028]
Accordingly, the harvesting unit 10 is driven up and down around the axis P by the driving operation of the lift cylinder 5 for the swinging operation of the harvesting unit frame by the lift cylinder 5, and moves up and down with respect to the traveling machine body. Then, the weeding device 11 is located near the field and the soil release blade 15 is lowered to a work level at which the soil is released into the soil, or the weeder device 11 and the soil release blade 15 are raised to the non-work level at which the surface is lifted from the field. Then, when the traveling machine is run at the work level, the leaves b of the ginseng a to be harvested are separated from the leaves of the ginseng to be non-harvested by the weeding device 11 and are caused. The ginseng a, which has easily come off, is pulled out of the field by the pulling-up device 14 and supplied to the beard root cutting device 16 to remove the beard root. The ginseng a from which the beard root has been removed is further lifted and transported in a suspended state by the lifting device 14 and supplied to the leaf removing device 20. The positioning device 22 and the cutting transport device 25 of the leaf removing device 20 use the ginseng a. The ginseng a is supplied to the rotating cutter 35 to cut and remove the leaf b while preventing the ginseng a from hitting the rotating cutter 35, and the ginseng a from which the leaves b are removed is dropped to the transport start end side of the root vegetable conveyor 40. Supply. The discharged leaves separated from the ginseng a are conveyed to the rear of the cutter 35 by the cutting conveyance device 25 and the leaf discharge conveyance device 30 and dropped. At this time, as shown in FIG. 8, the base end side of the leaf discharge is transported by the cutting transport device 25, and the leaf tip side is transported by the leaf discharge transport device 30, and the leaf tip side precedes the proximal end side. As a result of being transported, the leaves are released in a slightly rearward position, which is located rearward toward the tip end, and falls in a state in which the leaves are not easily caught by the transport device. The leaves discharged from the transport devices 25 and 30 are dropped on a chute 38 whose base end is supported by a cover 37 that covers the periphery of the transport devices 25 and 30 and the cutter 35. Is lowered to the rear side of the machine, dropped from the chute 38 behind the root vegetable conveyor 40, and discharged to the field.
[0029]
As shown in FIGS. 15 and 16, the root vegetable conveyor 40 has a rear end supported by a pair of left and right brackets 6 erected at the rear end of the body frame 3 of the traveling machine via a conveyor drive shaft 41, In the pair of left and right conveyor frames 42 whose front ends are located below the positioning device 22 of the leaf removing device 20, between the front ends of the two conveyor frames 42, between the intermediate portions, and between the rear ends. The belt belt 43 is rotatably attached to each of the belt rollers 43, and the conveyor belt 44 is rotatably supported. The belt roller 43 on the rear end side has a roller support shaft 43a that supports the belt roller 43, and a roller support shaft 43a. The conveyor belt is driven by the conveyor drive shaft 41 via a gear mechanism having one end interlocked with one end of the conveyor drive shaft 41 to drive the conveyor belt 44. To have configured.
[0030]
Thus, when the leaf removing device 20 cuts the leaf b and drops the ginseng a from the cutting transport device 25, the root vegetable conveyor 40 receives the ginseng a at the transport start end side of the conveyor belt 44, and It is placed on the belt 44 and transported to the rear of the machine.
[0031]
As shown in FIGS. 2 and 15, a guide roller 57 is provided so as to be able to be driven above the conveying end of the conveyor belt 44 in the root vegetable conveyor 40. The guide roller 57 has a rotation axis that is inclined with respect to the conveying direction of the root vegetable conveyor 40, and the end located on the sorting conveyor 48 side is on the lower side of the root vegetable conveyor 40 than the opposite end. The ginseng a conveyed by the root vegetable conveyer 40 is guided from the root vegetable conveyer 40 to the laterally outward side of the root vegetable conveyer 40 and moved to the sorting conveyor 48 by the above-mentioned positioning posture and rotation.
[0032]
The sorting conveyor 48 is composed of a plurality of drivable rollers arranged in the lateral direction of the machine body. The ginseng a from the root vegetable conveyor 40 is provided with the operating unit 2 located at the lateral end side of the traveling machine body where the harvesting unit 10 is located. It is conveyed toward the end side and supplied to the collecting unit 50. The sorting conveyor 48 is located at the rear end of the traveling machine so that an operator can walk the rear side of the sorting conveyor 48 and perform sorting while moving following the machine. To be transported.
[0033]
The collecting section 50 places a container 54 such as a container, and sends the ginseng a to the container 54 by the sorting conveyor 48 to collect.
[0034]
The small carrier 51 is used, for example, for mounting an empty or carrot-collected container 54, and the traveling body is configured to be able to swing up and down around a body horizontal axis 51a disposed at one end. Is connected to the rear end of the body frame 3. That is, when the small carrier 51 is swung to the rear side of the machine body around the shaft center 51a and the mounting position is extended to the rear side of the collection unit 50, the small carrier 51 is in the use posture. When the free end side of the small carrier 51 is set in the mounting posture in which the small carrier 51 enters the collecting unit 50, the small carrier 51 is in the storage posture folded in the collecting unit 50.
[0035]
The large carrier 52 is used to mount an empty or carrot-collected container 54 or the like. It is connected to the lateral end of the body frame 3. That is, as shown in FIG. 17, one end of the reinforcing rod 52 b attached to the back side of the large carrier 52 by lowering and swinging the large carrier 52 around the axis 52 a is positioned on the lower surface of the lateral end of the body frame 3. When the mounting position is set to be abuttingly received and supported, the large loading platform 52 is used in such a manner that the loading surface 52c of the large loading platform 52c projects horizontally or almost horizontally to the lateral outside of the fuselage with respect to the recovery unit 50 and the containers 54 and the like can be loaded. become. When the large carrier 52 is swung up and down around the axis 52a to have a mounting posture extending upward from the carrier supporting portion of the body frame 3, the large carrier 52 is positioned more inside the machine than in the use posture. After retirement, the loading surface 52c is in a storage position along the vertical direction of the machine body on the lateral outside of the machine body with respect to the collection unit 50. In this case, the locking member extending from the traveling body side is locked to the large loading platform 52, and the large loading platform 52 is fixed in the storage position.
An auxiliary carrier 55 is connected to the rear end of the large carrier 52 via a connection link 55a. The auxiliary carrier 55 is swung toward the large carrier 52 by the rotation of the connecting link 55a with respect to the large carrier 52 and the auxiliary carrier 55, and is placed in the retracted state by being superimposed on the loading surface 52c. And is extended to the rear side from the large carrier 52 to be used.
[0036]
As shown in FIG. 15, the conveyor drive shaft 41 that attaches the left and right conveyor frames 42 of the root vegetable conveyor 40 to the left and right brackets 6 of the machine body frame 3 rotatably penetrates the left and right conveyor frames 42 and the bracket 6. By doing so, the root vegetable conveyor 40 swings up and down with respect to the traveling machine body around the machine body lateral axis 41a of the conveyor drive shaft 41 located on the transport end side.
[0037]
As shown in FIGS. 15 and 16, the root vegetable is connected by a link body whose upper end is rotatably connected to both ends of a support rod 45 that is connected to the left and right conveyor frames 42 at the transport start end side of the root vegetable conveyor 40. A pair of left and right legs 46 of the conveyor 40 are formed, and the distal end side is slidably inserted into an elongated hole 46a in the machine body vertical direction provided on each of the leg portions 46, and the base end side is fixedly fastened to the main frame 13a. The shaft member constitutes a conveyor lifting / lowering operation body 47a provided on the harvesting unit frame so as to move up and down with respect to the traveling machine together with the harvesting unit frame. The pair of left and right conveyor lifting / lowering operation bodies 47a and the pair of left and right legs An adjustment mechanism 47 that automatically links the root vegetable conveyor 40 up and down around the axis 43a in association with the lifting and lowering of the harvesting unit 10 with respect to the traveling machine body. Configure and Aru.
[0038]
In other words, as shown in FIG. 15 (a), when the harvesting unit 10 moves up and down in the low-level lifting area LH on the lower end side of the lifting area H in which the harvesting unit 10 can perform the lifting operation, each of the conveyor lifting and lowering operation bodies 47a is moved by the leg. Only the inside of the long hole 46a of the portion 46 is moved, and the lifting operation and the receiving support are not performed on the leg 46. The left and right legs 46 are mounted on the support portion 3a provided on the body frame 3 of the traveling body. The root starting conveyor 40 is supported and supported at a predetermined arrangement level by receiving and supporting the root starting conveyor 40. The root feeding conveyor 40 is supported by the legs 46 and supported by the bracket 6 of the machine frame 3 by the harvesting unit 10. Is maintained in a mounting posture for transporting ginseng a from the rear of the machine. As shown in FIG. 15 (b), when the harvesting unit 10 moves up and down in the high-level lifting area HH on the rising end side of the lower-level lifting area LH of the lifting area H, each conveyor lifting operation is performed. The body 47a is located at the upper end of the long hole 46a of the leg 46, and the root vegetable conveyor 40 is raised by pushing up the leg 46 for the lifting operation force by the lift cylinder 5, or the body is lowered by the lift cylinder 5. The root vegetable conveyor 40 is lowered by receiving and supporting the leg 46 for the lowering operation. As the low-level elevation area LH, an elevation area between a maximum height and a descending end which is set so that the harvesting unit 10 is lifted when a harvest operation is performed is set.
[0039]
Therefore, the adjusting mechanism 47 adjusts the root vegetable conveyor 40 as follows. That is, when the harvesting unit 10 is located in the low-level side elevating area LH, even if the harvesting unit 10 swings up and down, the root vegetable conveyor 40 swings up and down from the mounting position for transportation that does not hinder the ginseng transportation. When the harvesting unit 10 is positioned in the high-level ascending / descending area HH, if the harvesting unit 10 swings up and down, the root vegetable conveyer follows. Adjustment is made so that the upper and lower sides 40 swing vertically in the same direction as the elevating direction of the harvesting unit 10. Accordingly, when performing the harvesting operation, even if the weeding device 11, the soil loosening blade 15, and the pulling-up device 14 of the harvesting unit 10 are adjusted in height, the root vegetable conveyor 40 maintains the mounting posture for conveyance. It is possible to work while smoothly supplying the ginseng a from the harvesting unit 10 to the sorting conveyor 48. When traveling without harvesting work such as turning, when the harvesting unit 10 is raised, the root vegetable conveyor 40 is also raised, and the harvesting unit 10 can be lifted sufficiently high to travel.
[0040]
The transmission structures of the left and right device sections in the leaf discharge removing device 20 are configured as shown in FIGS. 6 and 7.
That is, the first rotary transmission shaft 21c driven by the one end of the transmission case 21 being linked with the input shaft 21a via the bevel gear 21b is connected to the input shaft 21a inside the transmission case 21 and the rotary cutter 35. The intermediate portion of the first rotary transmission shaft 21c is provided so as to be rotatable integrally with the first rotary transmission shaft 21c between the drive shaft 36 and the positioning device 22 or the transport device 25 for cutting. It is linked to the chain drive shaft 23c via a gear mechanism G1 composed of a bevel gear and a bevel gear rotatably attached to the drive shaft 23c of the positioning chain 24. An end of the first rotary transmission shaft 21c on the side opposite to the input side is bevelly mounted on the first rotary transmission shaft 21c so as to be rotatable integrally with the first rotary transmission shaft 21c, and is integrally rotatably mounted on the drive shaft 36 of the rotary cutter 35. It is linked to the cutter drive shaft 36 via a gear mechanism G2 including a bevel gear. One end of the second rotary transmission shaft 21e driven by the driving force from the first rotary transmission shaft 21c is linked to the cutter drive shaft 36 via a bevel gear 21d. And the drive shaft 28 of the endless transfer belt 27 of the cutting transfer device 25, which is disposed so as to rotate around the same axis as the first rotation transmission shaft 21 c. The other end of the belt drive shaft 21e is connected to the second rotation transmission shaft 21e via a gear mechanism G3 including a bevel gear integrally rotatably mounted on the second rotation transmission shaft 21e and a bevel gear integrally rotatable on the belt drive shaft 28. 28.
[0041]
As shown in FIGS. 10 and 11, the drive shaft 36 of the rotary cutter 35 is linked to the first and second rotary transmission shafts 21c and 21e via the gear mechanism G2 and the bevel gear 21d, and a transmission case. A rotary cylinder shaft 36a rotatably supported by the rotary shaft 21 and an inner end of the rotary cutter shaft 35a which is slidably fitted in the axial direction of the rotary cylinder shaft 36a. It is constituted by a cutter shaft 36b rotatably connected. The upper end portion 36c of the rotary cylinder shaft 36a is formed as a hexagonal cylinder shaft, and the upper end portion of the cutter support shaft 36b is formed as a hexagonal shaft that rotatably engages with the upper end portion 36c of the rotary cylinder shaft 36a. Thereby, the cutter support shaft 36b is connected so as to rotate integrally with the rotary cylinder shaft 36a. An adjusting screw shaft 81 having a distal end connected via a connector 80 to an end of the cutter support shaft 36b protruding downward from the transmission case 21 is supported by a support member whose base end is fixed to the transmission case 21. The adjusting mechanism is attached to the screw portion 82a on the distal end side of the rotary cutter 82 and adjusts the height of the rotary cutter 35 so as to adjust the cutting position of the leaf by the rotary cutter 35 by rotating the adjusting screw shaft 81. It is.
[0042]
That is, the connector 80 is attached to the end of the cutter support shaft 36b via the bearing 80a so as to be relatively rotated, and is engaged by the retaining bolt 83 or the like so as not to relatively move in the axial direction of the cutter support shaft 36b. Then, it is engaged with the support 82 so as to slide in the axial direction of the cutter support shaft 36b while being prevented from rotating by the locking portion 80b that enters the long hole. The distal end portion of the adjusting screw shaft 81 is mounted so as to rotate relative to the connecting member 80, and is engaged by a positioning nut 84 and a retaining ring so as to push and pull the connecting member 80. Thus, the operating tool 81a attached to the lower end of the adjusting screw shaft 81 is rotated. Then, the adjusting screw shaft 81 rotates in the normal rotation direction or the reverse rotation direction with respect to the support member 82, and the cutter support shaft 36b is slid upward or downward with respect to the rotary cylinder shaft 36a via the connecting member 80. I do. When the cutter support shaft 36b is raised with respect to the rotary cylinder shaft 36a, the rotary cutter 35 is raised together with the cutter support shaft 36b, and the mounting height of the rotary cutter 35 with respect to the transmission case 21 is increased. The height with respect to the positioning roller 24a becomes higher than before adjustment. When the cutter support shaft 36b is lowered with respect to the rotary cylinder shaft 36a, the rotary cutter 35 is lowered together with the cutter support shaft 36b, and the mounting height of the rotary cutter 35 with respect to the transmission case 21 is reduced. The height with respect to the positioning roller 24a becomes lower than before adjustment.
[0043]
A transmission structure for transmitting the driving force of the engine E to the traveling device 1, the harvesting unit 10, and both the conveyors 40 and 48 is configured as shown in FIGS.
[0044]
That is, the rotational driving force of the output pulley 64 of the engine E is transmitted by the transmission belt 65 to the input pulley 67a of the hydrostatic continuously variable transmission 67 which is the main transmission section of the traveling mission 66, and the continuously variable transmission The left and right traveling output shafts 66a of the traveling mission 66 interlocked with the output section 67 via the auxiliary transmission and the steering clutch are connected to the crawler drive sprockets of the left and right traveling devices 1.
[0045]
The output of the continuously variable transmission 67 of the traveling mission 66 is linked to the output of the continuously variable transmission 67, and the rotational driving force of the work output pulley 66b that is shifted by the continuously variable transmission 67 in synchronization with the traveling device 1 is transmitted to the transmission belt 68. As a result, the power is transmitted to the inner end of the intermediate transmission shaft 69 penetrating the mounting cylinder 13b of the harvester frame, and the transmission belt 70 transmits the power from the outer end of the intermediate transmission shaft 69 to the transmission belt 70. The power is transmitted to a transmission shaft 60a provided inside the case 60, and from the transmission shaft 60a, the belt drive chain 14c of the left device portion of the pulling-up device 14 is driven by a transmission shaft 61a provided inside the left pulling-up transmission case 61. In addition, the belt drive chain 14c of the right device of the pulling device 14 is driven by a transmission shaft 61a provided inside the right pulling and raising transmission case 61. It is to reach. The transmission of the weeding transmission case 62 from the transmission shaft 61a of the pull-up transmission case 61 to the weeding device of the right weeding device 11 by a transmission shaft 62a provided inside the weeding transmission case 62. A shaft 62a and a transmission shaft 63a provided inside the transmission case 63 transmit the rotation to the weeding inducing device of the left weeding device 11, respectively. The driving force of the belt drive chain 14c of the left device of the pulling device 14 is transmitted to the input shaft 21a of the left transmission case 21 of the leaf removing device 20, and the belt drive chain of the right device of the pull device 14 is removed. The driving force 14c is transmitted to the input shaft 21a of the right transmission case 21 of the leaf removing device 20. The driving force of the belt drive chain 14c on the left side of the pulling-up device 14 is transmitted to the chain driving sprocket 31a of the leaf feeding and conveying device 30.
[0046]
The rotational driving force of the output pulley 64 of the engine E is transmitted to one end of a first intermediate transmission shaft 72 by a transmission belt 71, and the second intermediate transmission shaft is transmitted by the transmission belt 73 from the other end of the first intermediate transmission shaft 72. 74 to one end. The driving force of the second intermediate transmission shaft 74 is transmitted to an input pulley 76a of a reduction gear 76 composed of a worm and a worm wheel by a transmission belt 75 wound around one end of the second intermediate transmission shaft 74. The rotational driving force of the output sprocket 76b of the reduction gear 76 is transmitted to the driving sprocket 48a of the sorting conveyor 48 by the transmission chain 77. The rotation driving force of the second intermediate transmission shaft 74 is transmitted to the conveyor drive shaft 41 of the root vegetable conveyor 40 by a transmission chain 78 wound around the end of the second intermediate transmission shaft 74 opposite to the input side. At the same time, the power is transmitted to the input sprocket 79a of the branch transmission mechanism 79. The driving force of the output sprocket 79b of the branch transmission mechanism 79 is transmitted to the guide roller 57 by a transmission chain 57a.
[0047]
[Another embodiment]
The present invention can be applied to a harvester for harvesting various crops such as radishes and onions in addition to ginseng. These ginsengs, radishes, onions and the like are collectively referred to as root vegetables.
[0048]
An endless belt or the like may be employed in place of the positioning chain 24, and the chain 24, the endless belt, and the like may be collectively referred to as a positioning endless rotating strip.
[Brief description of the drawings]
FIG. 1 is a side view of an entire riding ginseng harvester.
FIG. 2 is a plan view of the entire riding ginseng harvester.
FIG. 3 Transmission system diagram
FIG. 4 Transmission system diagram
FIG. 5 is a plan view of a transmission structure.
FIG. 6 is a side view of the leaf removing device and the leaf discharging and conveying device.
FIG. 7 is a plan view of a transmission case of the leaf removing device.
FIG. 8 is an explanatory view showing a discharge state of leaf discharge.
FIG. 9 is a plan view of the leaf discharging and conveying device.
FIG. 10 is a sectional view of a rotary cutter mounting structure.
FIG. 11 is a plan view showing the engagement between the connector and the support.
FIG. 12 is a sectional view of a positioning device.
FIG. 13 is a cross-sectional view of a positioning device, a cutting transport device, and a leaf discharge transport device.
FIG. 14 is a plan view of a part of the positioning chain.
FIG. 15 is a side view of a root vegetable conveyor.
FIG. 16 is a front view of an adjustment mechanism.
FIG. 17 is an explanatory diagram showing a change in the attitude of the carrier.
[Explanation of symbols]
21d gear mechanism
23c Positioning endless rotating belt-shaped drive shaft
24 positioning endless rotating belt
27 Endless conveyor belt for cutting
28 Drive shaft of endless conveyor belt for cutting
35 rotating cutter
36 Rotary cutter drive shaft
36a Rotating cylinder shaft
36b Cutter support shaft
a root vegetable
b leaf
G1, G2, G3 gear mechanism

Claims (1)

圃場から持ち上げられた根菜を吊り下げ姿勢で挟持搬送して葉部切断用の回転カッターに供給する切断用無端搬送ベルトと、根菜が回転カッターに供給される際の根菜の前記回転カッターに対する位置決めを行うべく根菜に当接作用する位置決め無端回動帯状体とを備え、
前記切断用無端搬送ベルトの下方に駆動自在な回転伝動軸を切断用無端搬送ベルトによる搬送方向に平行に設けるとともに、この回転伝動軸を前記切断用無端搬送ベルト、前記位置決め無端回動帯状体、前記回転カッターそれぞれの駆動軸にギヤ機構を介して連動させてある根菜類収穫機の葉部除去装置であって、
前記回転伝動軸として、前記位置決め無端回動帯状体と前記回転カッターそれぞれの駆動軸にベベルギヤ機構を介して連動している回転伝動軸と、前記回転カッターと前記切断用無端搬送ベルトそれぞれの駆動軸にベベルギヤ機構を介して連動している回転伝動軸とを同一の軸芯まわりで回転するように配置して備えてあるとともに、前記回転カッターの駆動軸を、前記両回転伝動軸にベベルギヤ機構を介して連動している回転筒軸と、この回転筒軸に一体回転自在に係合した状態で、かつ、回転筒軸の軸芯方向に摺動調節自在に内嵌しているとともに前記回転カッターに一体回転自在に連結しているカッター支軸とによって構成してある根菜類収穫機の葉部除去装置。
An endless transport belt for cutting, which feeds the root vegetable lifted from the field in a suspended posture and supplies it to the rotary cutter for leaf cutting, and positions the root vegetable relative to the rotary cutter when the root vegetable is supplied to the rotary cutter. and a positioning endless rotating strip abutting acting on root vegetables in order to perform,
A rotatable rotary transmission shaft is provided below the cutting endless transport belt in parallel with the transport direction of the cutting endless transport belt, and the rotary transmission shaft is provided with the cutting endless transport belt, the positioning endless rotating belt, A leaf removing device for a root crop harvester that is linked to a drive shaft of each of the rotary cutters via a gear mechanism,
A rotary transmission shaft interlocked with a drive shaft of each of the positioning endless rotary belt-shaped body and the rotary cutter via a bevel gear mechanism as the rotary transmission shaft; and a drive shaft of the rotary cutter and the endless transport belt for cutting. A rotation transmission shaft interlocked with a bevel gear mechanism is disposed so as to rotate around the same axis, and a drive shaft of the rotary cutter is provided with a bevel gear mechanism on both of the rotation transmission shafts. A rotary cylinder shaft interlocked with the rotary cutter shaft, the rotary cutter shaft being integrally rotatably engaged with the rotary cylinder shaft, and slidably adjusted in the axial direction of the rotary cylinder shaft, and the rotary cutter; A leaf removing device for a root crop harvesting machine, which is constituted by a cutter shaft connected to a rotatable unit with the cutter.
JP2000096659A 2000-03-31 2000-03-31 Leaf removal device for root crops Expired - Lifetime JP3547362B2 (en)

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JP4560923B2 (en) * 2000-09-19 2010-10-13 井関農機株式会社 Vegetable harvesting machine
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