JP3521040B2 - Rice transplanter - Google Patents
Rice transplanterInfo
- Publication number
- JP3521040B2 JP3521040B2 JP15338996A JP15338996A JP3521040B2 JP 3521040 B2 JP3521040 B2 JP 3521040B2 JP 15338996 A JP15338996 A JP 15338996A JP 15338996 A JP15338996 A JP 15338996A JP 3521040 B2 JP3521040 B2 JP 3521040B2
- Authority
- JP
- Japan
- Prior art keywords
- storage
- fixed
- fertilizer
- fertilizer application
- case
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Landscapes
- Agricultural Machines (AREA)
- Fertilizing (AREA)
- Transplanting Machines (AREA)
Description
【発明の詳細な説明】
【0001】
【発明の属する技術分野】本発明は例えば苗載台及び植
付爪を備えて連続的に苗植作業及び側条施肥作業を行う
田植機に関する。
【0002】
【発明が解決しようとする課題】従来、複数組のホッパ
及び繰出ケースを左右方向に並設させて施肥部を形成す
ることにより、運搬用トラック荷台から機外側のホッパ
が突出し易く、植付部及び施肥部の多条大型化によって
容易に運搬し得ない不具合がある。そこで、前記施肥部
を中央の固定部と左右両側の収納部によって形成するこ
とにより、収納部の収納によって施肥部の左右幅を縮少
して運搬用トラック荷台に搭載できるが、固定部側から
延出させた支持部材に収納位置の収納部を支持させるこ
とにより、田植作業時に前記支持部材が施肥部から突出
し、苗継ぎまたは肥料補給作業時に前記支持部材が障害
になる不具合がある。また、前記支持部材が施肥部から
突出する長さを短くすると、支持部材の収納部支持荷重
が大きくなる不具合がある。また、前記施肥部を走行車
に取付ける土台フレームに前記収納部の折畳み支点を連
結させることにより、折畳み支点支持構造を特別に設け
る必要があり、軽量化またはコンパクト化を行えない不
具合がある。さらに、前記施肥部に設けるエアタンクを
固定側と収納側に分割して接合部に空気もれ防止用の弾
性パッキンを介在させることにより、収納側エアタンク
重量によってパッキンの下方側が大きく圧縮され易く、
パッキンが不均一に変形してパッキンの上方側の空気も
れ防止機能が低下し易い不具合がある。
【0003】
【課題を解決するための手段】然るに、本発明は、複数
組のホッパ及び繰出ケースを左右方向に並設させる施肥
部を走行車に装設させ、前記施肥部を中央の固定部と左
右両側の収納部によって形成し、左右両側の収納部を収
納位置で走行車機体に固定させ、施肥部の左右幅方向に
伸張している固定部に収納部の折畳み支点を設ける田植
機において、固定部に固定ブラケットを一体固定させ、
収納部に可動ブラケットを一体固定させ、固定ブラケッ
トの長孔に回動及び摺動自在に挿通させる折畳み支点を
可動ブラケットに回転自在に軸支させ、前記折畳み支点
回りに収納部を水平回転させかつ長孔の案内によって収
納部を水平移動させるもので、施肥部構成部材の兼用に
より折畳み支点支持構造の簡略化を容易に行い得、コン
パクト化などを容易に図り得るものである。
【0004】
【0005】
【0006】
【発明の実施の形態】以下、本発明の実施例を図面に基
づいて詳述する。図1は乗用田植機の側面図、図2は同
平面図を示し、図中(1)は作業者が搭乗する走行車で
あり、エンジン(2)を車体フレーム(3)前部上方に
搭載させ、ミッションケース(4)前方にフロントアク
スルケース(5)を介して水田走行用前輪(6)を支持
させると共に、前記ギヤ変速ケース(4)の後部にリヤ
アクスルケース(7)を連設し、前記リヤアクスルケー
ス(7)に水田走行用後輪(8)を支持させる。そして
前記エンジン(2)等を覆うボンネット(9)両側に予
備苗載台(10)を取付けると共に、ステップ(11)
を介して作業者が搭乗する車体カバー(12)によって
前記ミッションケース(4)等を覆い、前記車体カバー
(12)上部に運転席(13)を取付け、その運転席
(13)の前方で前記ボンネット(9)後部に操向ハン
ドル(14)を設ける。
【0007】また、図中(15)は8条植え用の苗載台
(16)並びに複数の植付爪(17)などを具備する植
付部であり、前高後低の合成樹脂製の前傾式苗載台(1
6)を下部レール(18)及びガイドレール(19)を
介して植付ケース(20)に左右往復摺動自在に支持さ
せると共に、一方向に等速回転させるロータリケース
(21)を前記植付ケース(20)に支持させ、該ケー
ス(21)の回転軸芯を中心に対称位置に一対の爪ケー
ス(22)(22)を配設し、その爪ケース(22)
(22)先端に植付爪(17)(17)を取付ける。ま
た前記植付ケース(20)の前側にローリング支点軸
(23)を介して支持フレーム(24)を設け、トップ
リンク(25)及びロワーリンク(26)を含むリンク
機構(27)を介して走行車(1)後側に支持フレーム
(24)を連結させ、前記リンク機構(27)を介して
植付部(15)を昇降させる昇降シリンダ(28)をロ
ワーリンク(26)に連結させ、前記前後輪(6)
(8)を走行駆動して移動すると同時に、左右に往復摺
動させる苗載台(16)から一株分の苗を植付爪(1
7)によって取出し、連続的に苗植え作業を行うように
構成する。
【0008】また、図中(29)は走行変速レバー、
(30)は植付昇降兼作業走行変速用副変速レバー、
(31)は植付け感度調節レバー、(32)は主クラッ
チペダル、(33)(33)は左右ブレーキペダル、
(34)は2条分均平用センターフロート、(35)は
2条分均平用サイドフロート、(36)は8条用の側条
施肥部である。
【0009】さらに、図3、図4に示す如く、肥料を入
れる肥料タンクである中央の固定側施肥ホッパ(37)
及び左右の収納側施肥ホッパ(371)(372)と、
肥料を定量供給する肥料繰出ケース(38)と、フロー
ト(34)(35)の側条作溝器(39)にフレキシブ
ル形搬送ホース(40)を介して肥料を排出させるター
ボブロワー型送風機(41)と、円筒形のエアタンク
(42)とを、前記施肥部(36)に備えると共に、エ
アタンク(42)右側端に送風機(41)を取付け、8
条分の8組の肥料繰出ケース(38)…をエアタンク
(42)上側に配設させている。
【0010】さらに、図5乃至図11に示す如く、前記
車体フレーム(3)後端の左右支柱(43)上端間に横
架する水平フレーム(44)両側に左右ベースフレーム
(45)(45)を取付け、前後方向に略水平に横架さ
せる前記ベースフレーム(45)を介して施肥部(3
6)を設けると共に、左右ベースフレーム(45)(4
5)にブラケット(46)(46)を介してエアタンク
(42)をボルト止め固定させるもので、ベースフレー
ム(45)後端部と車体フレーム(3)間にサイドステ
ー(47)を連結させ、ベースフレーム(45)前後側
に前後昇降レール(48)(49)…を立設させ、前後
一組左右二対の4本の該昇降レール(48)(48)
(49)(49)を介して施肥部(36)を昇降自在に
取付けると共に、左右一対の2本のガススプリング(5
0)(50)によって昇降自在に施肥部(36)を取付
け、車体フレーム(3)後端部に配置させるリヤアクス
ルケース(7)に施肥部(36)重量を支持させるもの
で、図12にも示す如く、前後昇降レール(48)(4
9)に対向させる軸受板(51)を設け、前記レール
(48)(49)に転動自在に嵌込むベアリングローラ
(52)…を軸受板(51)に回転自在に軸支させ、前
後2本のレール(48)(49)を左右対称に2組設
け、1本のレール(48)(49)に対して上下2個の
ローラ(52)(52)を取付け、左右一対の軸受板
(51)(51)を4本のレール(48)(49)と8
個のローラ(52)…によってベースフレーム(45)
に昇降自在に支持させている。
【0011】また、前記ガススプリング(50)の下端
を前記車体フレーム(3)に連結させ、前記軸受板(5
1)にガススプリング(50)上端を連結させ、前記レ
ール(48)(49)とガススプリング(50)を略平
行に立設させると共に、施肥部(36)の前後幅方向の
重心位置にガススプリング(50)を連結させるもの
で、施肥部(36)の重量と略等しいかまたは若干小さ
い伸張力をガススプリング(50)が有するように構成
している。
【0012】さらに、左右の軸受板(51)(51)を
丸パイプ形の前フレーム(53)によって一体固定さ
せ、施肥部(36)を持上げるときに作業者が握る取手
(54)を前記前フレーム(53)に溶接固定させ、左
右の前記軸受板(51)(51)に支軸(55)(5
5)を介して左右ロックレバー(56)(56)を回転
自在に軸支させ、前側の左右昇降レール(48)(4
8)に左右ロックレバー(56)(56)を介して左右
軸受板(51)(51)前部を係止させると共に、後側
の左右昇降レール(49)(49)に左右ロックピン
(57)(57)を取付け、軸受板(51)にロックピ
ン(57)を係脱自在に係入させ、後側の左右昇降レー
ル(49)(49)に左右軸受板(51)(51)後部
を左右ロックピン(57)(57)を介して係止させ、
軸受板(51)の前部と後部を前後の昇降レール(4
8)(49)にロックレバー(56)とロックピン(5
7)により固定させる。また、前記昇降レール(48)
に上下係合孔(58)(59)を形成させ、各係合孔
(58)(59)にロックレバー(56)を係入させて
施肥機(36)を上昇位置または下降位置で固定支持さ
せるもので、ロックレバー(56)を前記取手(54)
の下側に延出させ、運転席(13)側に突設させる取手
(54)を作業者が握り乍らロックレバー(56)を操
作し、ロックレバー(56)を係合孔(58)(59)
から離脱させることができるように構成している。
【0013】また、前記前フレーム(53)にケース前
ブラケット(60)を溶接固定させ、該ケース前ブラケ
ット(60)に前記繰出ケース(38)前側をボルト止
め固定させるもので、1ユニットとして構成する中央2
条分の繰出ケース(38)(38)を左右の昇降レール
(48)(49)間に配設させ、昇降レール(48)
(49)の機外側に左右各2条分の繰出ケース(38)
(38)を夫々配設させ、2条1組として6条分3ユニ
ットの繰出ケース(38)…を左右に並設させ、さらに
左右機外側に左右の収納側繰出ケース(381)(38
2)を並設させている。
【0014】さらに、図12に示す如く、前記繰出ケー
ス(38)(381)(382)の上面前側の取入口
(61)に前記ホッパ(37)(371)(372)の
下部出口(62)を嵌着させると共に、前記繰出ケース
(38)(381)(382)前面下側に取出口(6
3)を形成し、着脱自在なキャップ(64)によって取
出口(63)を閉塞している。前記キャップ(64)を
取外して取出口(63)を開放し、ホッパ(37)内部
の肥料を前側下方に流下させるもので、このときに施肥
部(36)を昇降レール(48)(49)の上昇位置に
支持させ、取出口(63)と下方のエアタンク(42)
の間隔を拡大させ、肥料を入れる容器を前記取出口(6
3)下方に容易に差し入れることができ、残留肥料の取
出しを容易に行えるように構成している。
【0015】また、前記繰出ケース(38)下面に閉塞
レバーを介してケース底部である底蓋(66)を着脱自
在に固定させると共に、硬質合成樹脂製の前記底蓋(6
6)下面に出口(67)を形成するもので、エアタンク
(42)に前端部を嵌着させる軟質合成樹脂製の接合パ
イプ(68)を備え、該パイプ(68)後端に硬質合成
樹脂製のホースジョイント(69)前端を着脱自在に嵌
着させると共に、前記ジョイント(69)後端に前記搬
送ホース(40)を嵌着させ、前記送風機(41)の送
風をエアタンク(42)から各パイプ(68)…及びホ
ース(40)に吹出させ、底蓋(66)の出口(67)
からジョイント(69)中間に落下する肥料を搬送ホー
ス(40)に移動させるもので、T字形フランジを形成
する前記ジョイント(69)中間に入口(70)を上向
き開放に形成し、底蓋(66)の出口(67)に嵌合キ
ャップ(71)を固定させ、該キャップ(71)を前記
入口(70)の外壁に着脱自在に嵌着させ、出口(6
7)を入口(70)に接続させると共に、前記エアタン
ク(42)に取付板(72)を一体固定させ、取付板
(72)に前記ジョイント(69)をボルト止め固定さ
せている。
【0016】また、取入口(73)及び吹出口(74)
を有する入口板(75)と、同一円周上に略四角形の複
数の繰出口(76)…を有する繰出ロールである繰出板
(77)と、排出口(78)を有する出口板(79)を
備え、略円形平板製の前記各板(75)(77)(7
9)を繰出ケース(38)と底蓋(66)の間に多層状
に配設させると共に、繰出ケース(38)にロール駆動
軸である繰出軸(80)を略垂直に回転自在に軸支さ
せ、各板(75)(77)(79)の中央部に繰出軸
(80)下端側を貫通させ、出口板(79)下面に下方
側からバネ(81)を弾圧させ、各板(75)(77)
(79)を下方に抜出し自在に繰出軸(80)に支持さ
せ、かつ閉塞レバーによって各板(75)(77)(7
9)を繰出ケース(38)と底蓋(66)間に弾圧させ
るもので、入口板(75)と出口板(79)を繰出ケー
ス(38)に係止させ、各板(75)(79)に対して
繰出軸(80)を遊転させると共に、繰出板(77)を
繰出軸(80)に係合軸支させ、繰出軸(80)によっ
て繰出板(77)を強制的に回転させ、取入口(73)
から繰出口(76)に入った肥料を排出口(78)に移
動させて出口(67)方向に落下させるように構成して
いる。
【0017】さらに、図6、図9、図11にも示す如
く、前記エンジン(2)出力を植付部(15)に伝達さ
せるPTO軸(86)をミッションケース(4)から後
方に延出させると共に、前記左支柱(43)に軸受ケー
ス(87)を溶接固定させ、軸受ケース(87)の入力
軸(88)を前記PTO軸(86)中間にチェン(8
9)を介して連動連結させ、軸受ケース(87)の出力
軸(90)後端部にクランク板(91)をボールロック
構造により着脱自在に固定させる。また、前記軸受板
(51)及びケース後ブラケット(92)を一体固定さ
せる四角パイプ形後面フレーム(93)を備え、エアタ
ンク(42)及び前フレーム(53)と略平行に後面フ
レーム(93)を横架させ、ケース後ブラケット(9
2)に前記繰出ケース(38)後側をボルト止め固定さ
せる。
【0018】また、前記左の軸受板(51)にブラケッ
ト(94)及び軸(95)を介して繰出量調節レバー
(96)を軸支させると共に、左の軸受板(51)に支
軸(97)を介して調節リンク(98)及び支点リンク
(99)を設け、前記レバー(96)のネジ部(10
0)に調節リンク(98)を連結させ、支点リンク(9
9)に調節支点(101)を取付け、該支点(101)
に駆動アーム(102)を軸支させる。
【0019】また、前記後面フレーム(93)に軸受板
(103)を介して繰出駆動軸(104)を回転自在に
軸支させ、該駆動軸(104)に揺動アーム(105)
を固定させ、前記駆動アーム(102)に長さ調節自在
な伸縮ロッド(106)一端側を連結させ、かつ前記揺
動アーム(105)に前記伸縮ロッド(106)の他端
側を連結させると共に、前記クランク板(91)を駆動
アーム(102)に入力ロッド(107)を介して連結
させ、植付駆動用のPTO軸(86)から入力ロッド
(107)及び駆動アーム(102)を介して繰出駆動
軸(104)に駆動力を伝えるように構成している。
【0020】さらに、図8に示す如く、前記後面フレー
ム(93)に連れ回り防止一方向クラッチ(108)を
介してクラッチ軸(109)を軸支させ、該クラッチ軸
(109)に一方向クラッチ(110)を介して入力リ
ンク(111)を設けると共に、前記繰出駆動軸(10
4)に揺動リンク(112)を固定させ、該リンク(1
12)を前記入力リンク(111)に連係ロッド(11
3)を介して連結させ、入力リンク(111)を揺動さ
せてクラッチ軸(109)を一方向に間欠的に回転させ
るように構成している。
【0021】また、前記繰出ケース(38)に条止めク
ラッチケース(114)を固定させると共に、前記繰出
軸(80)上端側にベベルギヤ(116)を介してクラ
ッチ軸(109)を常時連結させるもので、繰出軸(8
0)を前記クラッチ軸(109)に継断自在に連結させ
る条止めクラッチ(図示省略)を前記クラッチケース
(114)に内設させると共に、前記ケース(114)
の条止めクラッチを継断操作するクラッチレバー(11
8)とクラッチアーム(119)を前記クラッチケース
(114)の前後に振分け配設させ、前記植付部(1
5)の苗載台(16)上側背面部に設ける植付け条止め
用ユニットクラッチレバー(120)に条止めワイヤを
介して前記クラッチアーム(119)を連結させる。
【0022】さらに、図8、図13、図14に示す如
く、中央2条分の肥料繰出ケース(38)(38)取付
位置外側で前フレーム(53)と後面フレーム(93)
に左右の軸受板(51)(51)を溶接固定させると共
に、前フレーム(53)と後面フレーム(93)の両端
部を左右のサイドフレーム(123)(123)によっ
て一体固定させ、両側2条分の肥料繰出ケース(38)
(38)を軸受板(51)とサイドフレーム(123)
間の前フレーム(53)及び後面フレーム(93)に取
付けるもので、四角枠形の各フレーム(53)(93)
(123)を軸受板(51)によって左右方向に三等分
に区切り、前後のフレーム(53)(93)間に6条分
の肥料繰出ケース(38)を掛け渡し支持させる。
【0023】さらに、図13乃至図21に示す如く、前
記ステップ(11)を取付けるステップフレームを介し
て補助ステップ(124)を設け、車体カバー(12)
後部両側に左右補助ステップ(124)(124)を配
設させると共に、中央の固定側エアタンク(42)両側
に左右略同一形状の収納側エアタンク(421)(42
2)を連設させ、固定側エアタンク(42)端部に固定
ブラケット(125)を一体固定させ、収納側エアタン
ク(421)(422)に可動ブラケット(126)を
一体固定させ、固定ブラケット(125)の長孔(12
7)に回動及び摺動自在に挿通させる水平回動支点軸
(128)を可動ブラケット(126)に回転自在に軸
支させ、前記支点軸(128)回りに収納側エアタンク
(421)(422)を水平回転させかつ長孔(12
7)の案内によって収納側エアタンク(421)(42
2)を水平移動させ、補助ステップ(124)上面に収
納側エアタンク(421)(422)を折畳み自在に構
成している。また、右の収納側エアタンク(422)端
部に前記送風機(41)を取付け、送風機(41)から
各タンク(422)(42)(421)内に空気を圧送
し、該空気によって肥料を搬出する施肥作業を行うよう
に構成している。
【0024】さらに、前記サイドフレーム(123)に
ロックピン(129)(129)及びパッチン錠(13
0)を介して左右フレーム(131)(131)を着脱
自在に連結させ、前フレーム(53)及び後面フレーム
(93)と略同形の分割フレーム(132)(133)
を左右フレーム(131)(131)と外側フレーム
(134)(134)の間に一体固定させ、分割フレー
ム(132)(133)に左右繰出ケース(381)
(382)を固定させると共に、固定側クラッチ軸(1
09)端部のクラッチ板(136)に左右繰出ケース
(381)(382)の繰出軸(135)(135)の
爪体(137)をバネ(138)を介して着脱自在に連
結させ、クラッチ軸(109)からクラッチ板(13
6)及び爪体(137)を介して左右繰出ケース(38
1)(382)に繰出し駆動力を伝えるように構成して
いる。
【0025】さらに、前記収納側エアタンク(421)
(422)に係合筒(139)(139)を一体固定さ
せ、左右フレーム(131)(131)及び外側フレー
ム(134)(134)に固定ピン(140)(14
0)を一体固定させ、該固定ピン(140)(140)
を前記係合筒(139)(139)に出入自在に上方側
から遊嵌挿入させ、固定ピン(140)(140)を係
合筒(139)(139)に差込むと共に、補助ステッ
プ(124)上面に当接させる脚フレーム(141)を
収納側エアタンク(421)(422)に一体固定さ
せ、左右フレーム(131)(131)に固定用ステー
(142)上端側を一体固定させ、前記ステー(14
2)下端側を脚フレーム(141)上面に当接させ、上
下に重ねた前記ステー(142)及び脚フレーム(14
1)をノブボルト(143)によって補助ステップ(1
24)上面に着脱自在に固定させると共に、前記ノブボ
ルト(143)を取外して左右フレーム(131)(1
31)及び外側フレーム(132)(132)を上方に
持上げ、係合筒(139)からピン(140)を抜出
し、収納側ホッパ(371)(372)及び繰出ケース
(381)(382)を収納側エアタンク(421)
(422)に対して分離させるように構成している。
【0026】また、前記固定ブラケット(125)に収
納固定板(144)を一体形成し、前記脚フレーム(1
41)及び固定用ステー(142)をノブボルト(14
3)によって補助ステップ(124)に固定させたと
き、前記収納固定板(144)に可動ブラケット(12
6)をノブボルト(145)によって固定させ、補助ス
テップ(124)上面に2本のノブボルト(143)
(145)によって収納側エアタンク(421)(42
2)を固定させ、収納側施肥ホッパ(371)(37
2)及び繰出ケース(381)(382)を収納側エア
タンク(421)(422)に支持させるように構成し
ている。
【0027】上記から明らかなように、複数組のホッパ
(37)(371)(372)及び繰出ケース(38)
(381)(382)を左右方向に並設させる施肥部
(36)を走行車(1)に装設させる田植機において、
前記施肥部(36)を中央の固定部である固定側ホッパ
(37)及び繰出ケース(38)及びエアタンク(4
2)と左右両側の収納部である収納側ホッパ(371)
(372)及び繰出ケース(381)(382)及びエ
アタンク(421)(422)によって形成し、左右両
側の収納側ホッパ(371)(372)及び繰出ケース
(381)(382)及びエアタンク(421)(42
2)を収納位置で走行車機体である補助ステップ(12
4)に固定させるように構成したもので、収納位置の収
納側ホッパ(371)(372)及び繰出ケース(38
1)(382)及びエアタンク(421)(422)を
補助ステップ(124)に固定させることにより、収納
位置の収納側ホッパ(371)(372)及び繰出ケー
ス(381)(382)及びエアタンク(421)(4
22)を支持させる部材を施肥部(36)側から突設さ
せる必要がなく、また収納位置の収納側ホッパ(37
1)(372)及び繰出ケース(381)(382)及
びエアタンク(421)(422)支持強度を容易に確
保できるように構成すると共に、施肥部(36)の左右
幅方向に伸張している施肥部構成部材である固定側エア
タンク(42)に収納側ホッパ(371)(372)及
び繰出ケース(381)(382)及びエアタンク(4
21)(422)の折畳み支点である水平回動支点軸
(128)を設け、固定側エアタンク(42)の兼用に
より水平回動支点軸(128)支持構造の簡略化並びに
軽量コンパクト化を図るように構成している。
【0028】さらに、前記固定側エアタンク(42)両
端にフランジ(146)(146)を一体固定させ、前
記収納側エアタンク(421)(422)にフランジ
(147)(147)を一体固定させ、ノブボルト(1
43)によって対向する各フランジ(146)(14
7)を締付け固定し、各フランジ(146)(147)
を直接当接させ、固定側エアタンク(42)両端に収納
側エアタンク(421)(422)を固定させると共
に、収納側エアタンク(421)(422)の弾性ゴム
製の空気もれ防止パッキン(148)に輪形突条(14
9)を形成し、固定側エアタンク(42)の弾性ゴム製
の空気もれ防止パッキン(150)に前記突条(14
9)を圧着させ、前記突条(149)の圧着変形によっ
て前記各パッキン(148)(150)を密着させるも
ので、前記各フランジ(146)(147)を直接当接
させて固定することにより、収納側エアタンク(42
1)(422)側の重量によって収納側エアタンク(4
21)(422)が固定側エアタンク(42)との接合
部分で下方に折曲がるのを防止し、各パッキン(14
8)(150)接合部の下方側が必要以上に圧縮された
り上方側が離反する不具合をなくすように構成してい
る。
【0029】上記から明らかなように、肥料搬送空気を
供給する施肥部(36)の固定側エアタンク(42)の
フランジ(146)(146)と収納側エアタンク(4
21)(422)のフランジ(147)(147)を直
接当接させたもので、固定側エアタンク(42)と収納
側エアタンク(421)(422)の接合部に介在させ
る空気もれ防止パッキン(148)(150)の不均一
な変形を阻止するように構成している。また、前記固定
ブラケット(125)にフランジ(146)を一体固定
させ、前記可動ブラケット(126)にフランジ(14
7)を一体固定させ、ブラケット(125)(126)
及びフランジ(146)(147)を相互に補強してい
る。
【0030】さらに、図22は前記図21の変形例を示
すもので、弾性ゴム製の伸縮自在な蛇腹形接合ホース
(151)を固定側エアタンク(42)と収納側エアタ
ンク(421)(422)にホースバンド(152)
(152)によって固定させ、収納側エアタンク(42
1)(422)を固定側エアタンク(42)に接合ホー
ス(151)を介して接続させ、図21に示すパッキン
(148)(150)を省くもので、施肥作業時並びに
収納時のいずれでも各エアタンク(42)(421)
(422)を接合ホース(151)によって連結させ、
作業時の空気もれ防止の信頼性を向上させ、また収納時
に各エアタンク(42)(421)(422)内に雨水
または塵が入るのを防止できるように構成している。
【0031】
【発明の効果】以上実施例から明らかなように本発明
は、複数組のホッパ(37)(371)(372)及び
繰出ケース(38)(381)(382)を左右方向に
並設させる施肥部(36)を走行車(1)に装設させ、
前記施肥部(36)を中央の固定部(37)(38)
(42)と左右両側の収納部(371)(372)(3
81)(382)(421)(422)によって形成
し、左右両側の収納部(371)(372)(381)
(382)(421)(422)を収納位置で走行車
(1)機体に固定させ、施肥部(36)の左右幅方向に
伸張している固定部(42)に収納部(371)(37
2)(381)(382)(421)(422)の折畳
み支点(128)を設ける田植機において、固定部(4
2)に固定ブラケット(125)を一体固定させ、収納
部(421)(422)に可動ブラケット(126)を
一体固定させ、固定ブラケット(125)の長孔(12
7)に回動及び摺動自在に挿通させる折畳み支点(12
8)を可動ブラケット(126)に回転自在に軸支さ
せ、前記折畳み支点(128)回りに収納部(421)
(422)を水平回転させかつ長孔(127)の案内に
よって収納部(421)(422)を水平移動させるも
ので、施肥部構成部材(42)の兼用により折畳み支点
(128)支持構造の簡略化を容易に行うことができ、
コンパクト化などを容易に図ることができるものであ
る。
【0032】
【0033】Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rice transplanter having, for example, a seedling mounting table and planting claws for continuously performing seedling planting and lateral fertilization. [0002] Conventionally, a plurality of sets of hoppers and feeding cases are juxtaposed in the left-right direction to form a fertilizer application section. There is a problem that it cannot be transported easily due to the large size of the planting and fertilizing sections. Therefore, by forming the fertilizing part by the central fixing part and the left and right storage parts, the left and right widths of the fertilizing part can be reduced by mounting the storage part and mounted on the transport truck bed. By supporting the storage portion at the storage position with the support member that has been brought out, the support member protrudes from the fertilizer application portion during rice transplanting work, and there is a problem in that the support member becomes an obstacle during seedling splicing or fertilizer replenishment work. Further, if the length of the support member protruding from the fertilizer application section is shortened, there is a problem that the storage portion support load of the support member increases. Further, by connecting the folding fulcrum of the storage section to the base frame for attaching the fertilizer to the traveling vehicle, it is necessary to specially provide a folding fulcrum support structure, and there is a problem that the weight or the size cannot be reduced. Further, by dividing the air tank provided in the fertilizer application part into a fixed side and a storage side and interposing an elastic packing for preventing air leakage at the joint, the lower side of the packing is easily greatly compressed by the weight of the storage side air tank,
There is a problem that the packing is deformed non-uniformly and the function of preventing air leakage on the upper side of the packing is easily deteriorated. [0003] Means for Solving the Problems] However, the present invention is to So設fertilization portion which are juxtaposed a plurality of sets of hoppers and feeding the case in the lateral direction to the traveling vehicle, fixing the fertilization portion central parts and formed by the left and right sides of the housing portion, to fix the housing portions of the left and right sides in vehicle body in a retracted position, in the lateral width direction of the fertilizer portion
Rice planting to provide a folding fulcrum for the storage part in the extending fixed part
In the machine, the fixing bracket is fixed integrally to the fixing part,
Fix the movable bracket integrally to the storage
Folding fulcrum to be able to rotate and slide freely through the long hole
The movable fulcrum is pivotally supported by the movable bracket, and the folding fulcrum is
Rotate the storage part horizontally around
The storage part is moved horizontally, and also serves as a fertilizer application part component.
The folding fulcrum support structure can be simplified more easily,
Pacting can be easily achieved. [0006] Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a side view of a riding rice transplanter, and FIG. 2 is a plan view of the same. In FIG. 1, (1) is a traveling vehicle on which an operator rides, and an engine (2) is mounted above a front portion of a body frame (3). A front paddle traveling wheel (6) is supported in front of the transmission case (4) via a front axle case (5), and a rear axle case (7) is connected to a rear portion of the gear transmission case (4). The rear axle case (7) supports a paddy field traveling rear wheel (8). Then, a spare seedling mounting table (10) is attached to both sides of the hood (9) covering the engine (2) and the like, and a step (11).
The transmission case (4) and the like are covered by a body cover (12) on which an operator rides, and a driver's seat (13) is mounted on the upper part of the body cover (12). A steering handle (14) is provided at the rear of the hood (9). [0007] In the figure, (15) is a planting portion provided with a seedling mounting table (16) for eight-row planting and a plurality of planting claws (17). Forward tilting seedling platform (1
6) is supported on a planting case (20) via a lower rail (18) and a guide rail (19) so as to be reciprocally slidable right and left, and a rotary case (21) is rotated at a constant speed in one direction. A pair of claw cases (22) and (22) are supported at the case (20) and symmetrically positioned around the rotation axis of the case (21), and the claw case (22) is provided.
(22) Attach the planting claws (17) and (17) to the tip. A support frame (24) is provided on the front side of the planting case (20) via a rolling fulcrum shaft (23), and travels via a link mechanism (27) including a top link (25) and a lower link (26). A support frame (24) is connected to the rear side of the vehicle (1), and a lifting cylinder (28) for raising and lowering the planting section (15) is connected to the lower link (26) via the link mechanism (27). Front and rear wheels (6)
(8) is driven to move, and at the same time, a seedling for one plant is planted from the seedling mounting table (16), which is reciprocally slid left and right.
7), the seedlings are continuously planted. In the drawing, (29) is a traveling speed change lever,
(30) is a sub-shift lever for planting elevating and working travel shifting,
(31) is a planting sensitivity adjusting lever, (32) is a main clutch pedal, (33) and (33) are left and right brake pedals,
(34) is a center float for two-row equalization, (35) is a side float for two-row equalization, and (36) is a side fertilizer for eight rows. Further, as shown in FIGS. 3 and 4, a central fixed side fertilizer hopper (37) which is a fertilizer tank for storing fertilizer.
And the left and right storage side fertilization hoppers (371) (372),
A fertilizer feeding case (38) for supplying a fixed amount of fertilizer, and a turbo blower-type blower (41) for discharging fertilizer through a flexible transfer hose (40) to a lateral striation groove device (39) of the floats (34) and (35). ) And a cylindrical air tank (42) are provided in the fertilizer application section (36), and a blower (41) is attached to the right end of the air tank (42).
Eight sets of fertilizer feeding cases (38) are arranged above the air tank (42). Further, as shown in FIGS. 5 to 11, a horizontal frame (44) extending between upper ends of left and right columns (43) at the rear end of the body frame (3) and left and right base frames (45) and (45) on both sides. The fertilizer application section (3) is attached via the base frame (45) which is mounted horizontally and substantially horizontally in the front-rear direction.
6) and the left and right base frames (45) (4)
5) The air tank (42) is bolted and fixed to the body frame (3) via brackets (46) and (46), and a side stay (47) is connected between the rear end of the base frame (45) and the body frame (3). The front and rear elevating rails (48), (49)... Are erected on the front and rear sides of the base frame (45), and a pair of front and rear elevating rails (48) (48) are provided.
(49) The fertilizer application part (36) is attached via a (49) so as to be able to move up and down freely, and a pair of left and right gas springs (5
The fertilizer application part (36) is attached to the rear axle case (7) disposed at the rear end of the vehicle body frame (3) so that the weight of the fertilizer application part (36) is supported by the fertilizer application part (36). As shown, the front and rear elevating rails (48) (4)
9) is provided with a bearing plate (51) opposed thereto, and bearing rollers (52) which are rotatably fitted to the rails (48) and (49) are rotatably supported by the bearing plate (51). Two sets of rails (48) and (49) are provided symmetrically, and two rollers (52) and (52) are attached to one rail (48) and (49), and a pair of left and right bearing plates ( 51) (51) is divided into four rails (48) (49) and 8
The base frame (45) by the rollers (52) ...
To be able to move up and down freely. Further, the lower end of the gas spring (50) is connected to the vehicle body frame (3), and the bearing plate (5) is connected.
The upper end of the gas spring (50) is connected to 1), and the rails (48) and (49) and the gas spring (50) are erected substantially in parallel with each other. The spring (50) is connected so that the gas spring (50) has an extension force substantially equal to or slightly smaller than the weight of the fertilizer application part (36). Further, the left and right bearing plates (51) and (51) are integrally fixed by a round pipe-shaped front frame (53), and a handle (54) which is gripped by an operator when lifting the fertilizer application section (36) is described. It is fixed to the front frame (53) by welding, and the support shafts (55) (5) are attached to the left and right bearing plates (51) (51).
The left and right lock levers (56) and (56) are rotatably supported via the 5), and the front left and right elevating rails (48) (4)
8), the front portions of the left and right bearing plates (51) and (51) are locked via left and right lock levers (56) and (56), and the left and right lock pins (57) are fixed to the rear left and right elevating rails (49) and (49). ) (57), the locking pin (57) is removably engaged with the bearing plate (51), and the left and right bearing plates (51) (51) rear portions are attached to the rear left and right elevating rails (49) (49). Is locked via left and right lock pins (57) and (57),
The front and rear parts of the bearing plate (51) are connected to the front and rear lifting rails (4).
8) At (49), lock lever (56) and lock pin (5)
Fix by 7). The lifting rail (48)
The upper and lower engagement holes (58) and (59) are formed in the respective holes, and the lock lever (56) is engaged with each of the engagement holes (58) and (59) to fix and support the fertilizer applicator (36) at the raised position or the lowered position. The lock lever (56) is moved to the handle (54).
The operator operates the lock lever (56) while holding the handle (54) projecting downward from the driver's seat (13) side and engaging the lock lever (56) with the engagement hole (58). (59)
It is configured to be able to be detached from. A case front bracket (60) is fixed to the front frame (53) by welding, and the front side of the extension case (38) is fixed to the case front bracket (60) by bolts. Central 2
The feed-out cases (38) and (38) are disposed between the left and right lifting rails (48) and (49), and the lifting rails (48)
(49) Outer case for left and right two lines on the outside of the machine (38)
(38) are arranged respectively, and a set of three units for six lines (38)... Are arranged side by side as one set of two lines.
2) is juxtaposed. Further, as shown in FIG. 12, the lower outlets (62) of the hoppers (37), (371) and (372) are provided at the inlet (61) on the front side of the upper surface of the feeding cases (38), (381) and (382). And the take-out cases (38), (381), and (382) are attached to the lower front side of the outlet (6).
3) is formed, and the outlet (63) is closed by a removable cap (64). The cap (64) is removed, the opening (63) is opened, and the fertilizer inside the hopper (37) flows down downward on the front side. At this time, the fertilizer application part (36) is moved up and down rails (48) (49). At the raised position, the outlet (63) and the lower air tank (42).
And the container for fertilizer is removed from the outlet (6
3) It is configured so that it can be easily inserted below and the residual fertilizer can be easily taken out. A bottom cover (66), which is the bottom of the case, is detachably fixed to the lower surface of the feeding case (38) via a closing lever, and the bottom cover (6) made of a hard synthetic resin is provided.
6) An outlet (67) is formed on the lower surface, and a joining pipe (68) made of a soft synthetic resin for fitting the front end to the air tank (42) is provided, and a hard synthetic resin is formed at the rear end of the pipe (68). Of the hose joint (69) is detachably fitted thereto, and the transfer hose (40) is fitted to the rear end of the joint (69) to blow air from the blower (41) from the air tank (42) to each pipe. (68) ... and the hose (40) are blown out, and the outlet (67) of the bottom lid (66) is blown out.
The fertilizer that falls from the center to the joint (69) is moved to the transfer hose (40). The inlet (70) is formed upward and open at the middle of the joint (69) forming a T-shaped flange, and the bottom lid (66) is formed. ), The fitting cap (71) is fixed to the outlet (67), and the cap (71) is detachably fitted to the outer wall of the inlet (70).
7) is connected to the inlet (70), the mounting plate (72) is integrally fixed to the air tank (42), and the joint (69) is fixed to the mounting plate (72) by bolting. Also, an inlet (73) and an outlet (74).
, A feed plate (77) which is a feed roll having a plurality of substantially square feed outlets (76) on the same circumference, and an outlet plate (79) having a discharge port (78). And each plate (75) (77) (7)
9) is arranged in a multilayered manner between the feeding case (38) and the bottom lid (66), and the feeding shaft (80), which is a roll drive shaft, is rotatably supported on the feeding case (38) substantially vertically. Then, the lower end side of the feeding shaft (80) penetrates through the center of each plate (75) (77) (79), and the spring (81) is elastically pressed from below on the lower surface of the outlet plate (79). ) (77)
(79) is supported on the feeding shaft (80) so that it can be pulled out downward, and each plate (75) (77) (7)
9) is pressed between the feeding case (38) and the bottom lid (66). The inlet plate (75) and the outlet plate (79) are locked to the feeding case (38), and each plate (75) (79) is locked. ), The feed shaft (80) is idled, the feed plate (77) is engaged with the feed shaft (80), and the feed plate (77) is forcibly rotated by the feed shaft (80). , Intake (73)
The fertilizer that has entered the feeding outlet (76) is moved to the outlet (78) and dropped toward the outlet (67). Further, as shown in FIGS. 6, 9 and 11, a PTO shaft (86) for transmitting the output of the engine (2) to the planting portion (15) extends rearward from the transmission case (4). At the same time, a bearing case (87) is welded and fixed to the left support (43), and an input shaft (88) of the bearing case (87) is placed between the PTO shaft (86) and a chain (8).
The crank plate (91) is detachably fixed to the rear end of the output shaft (90) of the bearing case (87) by a ball lock structure. Further, a square pipe-shaped rear frame (93) for integrally fixing the bearing plate (51) and the case rear bracket (92) is provided, and the rear frame (93) is substantially parallel to the air tank (42) and the front frame (53). Put it on the side, and put the bracket (9
In 2), the rear side of the feeding case (38) is bolted and fixed. Further, a feed amount adjusting lever (96) is supported on the left bearing plate (51) via a bracket (94) and a shaft (95), and a supporting shaft (51) is mounted on the left bearing plate (51). 97), an adjusting link (98) and a fulcrum link (99) are provided, and a screw (10) of the lever (96) is provided.
0), the adjustment link (98) is connected to the fulcrum link (9).
9) Attach an adjustment fulcrum (101) to the fulcrum (101).
To support the drive arm (102). Further, a feed drive shaft (104) is rotatably supported on the rear frame (93) via a bearing plate (103), and a swing arm (105) is attached to the drive shaft (104).
And the drive arm (102) is connected to one end of a telescoping rod (106) whose length is adjustable, and the swing arm (105) is connected to the other end of the telescoping rod (106). The crank plate (91) is connected to the drive arm (102) via the input rod (107), and the PTO shaft (86) for planting drive is connected via the input rod (107) and the drive arm (102). The driving force is transmitted to the feeding drive shaft (104). Further, as shown in FIG. 8, a clutch shaft (109) is supported by the rear frame (93) via a one-way clutch (108) for preventing rotation, and a one-way clutch is attached to the clutch shaft (109). An input link (111) is provided via the (110) and the feed drive shaft (10
4) Fix the swing link (112) to the link (1).
12) is connected to the input link (111) by the connecting rod (11).
3), the input link (111) is swung to rotate the clutch shaft (109) intermittently in one direction. Further, a locking clutch case (114) is fixed to the feeding case (38), and a clutch shaft (109) is always connected to an upper end of the feeding shaft (80) via a bevel gear (116). With the feeding shaft (8
0) is connected to the clutch shaft (109) so as to be able to be connected and disconnected, and a locking clutch (not shown) is provided in the clutch case (114), and the case (114) is provided.
Clutch lever (11
8) and the clutch arm (119) are separately arranged before and after the clutch case (114), and the planting portion (1) is arranged.
The clutch arm (119) is connected to the seedling mounting unit clutch lever (120) provided on the upper rear surface of the seedling mounting table (16) of (5) via a locking wire. Further, as shown in FIGS. 8, 13 and 14, the front frame (53) and the rear frame (93) outside the mounting position of the fertilizer feeding case (38) (38) for the center two rows.
The left and right bearing plates (51) and (51) are fixed by welding, and both ends of the front frame (53) and the rear frame (93) are integrally fixed by the left and right side frames (123) and (123). Fertilizer supply case (38)
(38) to the bearing plate (51) and the side frame (123)
It is attached to the front frame (53) and the rear frame (93) between the frames, and each of the rectangular frames (53) (93)
(123) is divided into three equal parts in the left-right direction by a bearing plate (51), and a six-row fertilizer feeding case (38) is supported between the front and rear frames (53) and (93). Further, as shown in FIGS. 13 to 21, an auxiliary step (124) is provided via a step frame for mounting the step (11), and the vehicle body cover (12) is provided.
Left and right assisting steps (124) and (124) are provided on both sides of the rear part, and storage-side air tanks (421) and (42) having substantially the same left and right shapes are provided on both sides of the central fixed-side air tank (42).
2), the fixed bracket (125) is integrally fixed to the end of the fixed-side air tank (42), and the movable bracket (126) is integrally fixed to the storage-side air tanks (421) and (422). ) Slot (12
A horizontal pivot shaft (128) rotatably and slidably inserted through 7) is rotatably supported by a movable bracket (126), and the storage-side air tanks (421) and (422) around the pivot shaft (128). ) Is horizontally rotated and the slot (12)
The storage side air tank (421) (42) is guided by the guide of (7).
2) is horizontally moved, and the storage side air tanks (421) and (422) are configured to be foldable on the upper surface of the auxiliary step (124). Further, the blower (41) is attached to the end of the right storage-side air tank (422), and air is pressure-fed from the blower (41) into each of the tanks (422), (42), (421), and the fertilizer is carried out by the air. It is configured to perform fertilizer application work. Further, a lock pin (129) (129) and a patch lock (13) are attached to the side frame (123).
0), the left and right frames (131) and (131) are detachably connected to each other, and the divided frames (132) and (133) having substantially the same shape as the front frame (53) and the rear frame (93).
Are fixed integrally between the left and right frames (131) and (131) and the outer frames (134) and (134), and the left and right extension cases (381) are attached to the divided frames (132) and (133).
(382) and the fixed clutch shaft (1).
09) The pawl body (137) of the feed shafts (135) and (135) of the left and right feed cases (381) and (382) is detachably connected to the clutch plate (136) at the end via a spring (138). From the shaft (109) to the clutch plate (13
6) and the left and right extension case (38) via the claw body (137).
1) The feeding drive force is transmitted to (382). Further, the storage-side air tank (421)
The engaging cylinders (139) and (139) are integrally fixed to (422), and the fixing pins (140) and (14) are fixed to the left and right frames (131) and (131) and the outer frames (134) and (134).
0) and the fixing pins (140) (140)
Are inserted into the engaging cylinders (139) and (139) from the upper side so as to be freely inserted and removed, and the fixing pins (140) and (140) are inserted into the engaging cylinders (139) and (139), and the auxiliary step (124) is performed. ) The leg frame (141) to be brought into contact with the upper surface is integrally fixed to the storage-side air tanks (421) and (422), and the upper ends of the fixing stays (142) are integrally fixed to the left and right frames (131) and (131). (14
2) The lower end is brought into contact with the upper surface of the leg frame (141), and the stay (142) and the leg frame (14) are vertically stacked.
1) by the knob bolt (143) to the auxiliary step (1).
24) While being detachably fixed to the upper surface, the knob bolt (143) is removed to remove the left and right frames (131) and (1).
31) and the outer frames (132) and (132) are lifted upward, the pin (140) is pulled out from the engagement cylinder (139), and the storage hoppers (371) and (372) and the extension cases (381) and (382) are stored. Side air tank (421)
(422). Further, a storage fixing plate (144) is integrally formed with the fixing bracket (125), and the leg frame (1) is formed.
41) and the fixing stay (142) with the knob bolt (14).
When fixed to the auxiliary step (124) by 3), the movable bracket (12) is attached to the storage fixed plate (144).
6) is fixed by a knob bolt (145), and two knob bolts (143) are provided on the upper surface of the auxiliary step (124).
The storage-side air tank (421) (42)
2) is fixed and the storage side fertilizer application hopper (371) (37)
2) and the feeding cases (381) and (382) are supported by the storage-side air tanks (421) and (422). As is clear from the above, a plurality of sets of hoppers (37) (371) (372) and the feeding case (38)
In a rice transplanter in which a fertilizer (36) in which (381) and (382) are juxtaposed in the left-right direction is mounted on the traveling vehicle (1),
The fertilizer application section (36) is fixed to a fixed side hopper (37), a feeding case (38), and an air tank (4
2) and a storage hopper (371) which is a storage section on both the left and right sides.
(372) and the feeding cases (381) and (382) and the air tanks (421) and (422), and the left and right storage-side hoppers (371) and (372), the feeding cases (381) and (382), and the air tank (421). (42
2) The auxiliary step (12) which is a traveling vehicle body in the stowed position
The storage hoppers (371) and (372) at the storage position and the feeding case (38)
1) By fixing the (382) and the air tanks (421) and (422) to the auxiliary step (124), the storage side hoppers (371) and (372) in the storage position, the feeding cases (381) and (382), and the air tank (421) ) (4
There is no need to protrude a member for supporting the fertilizer section (36) from the fertilizer application section (36), and the storage side hopper (37
1) (372), the feeding cases (381) and (382), and the air tanks (421) and (422) are configured so that the supporting strength can be easily secured, and the fertilizer is extended in the left-right width direction of the fertilizer (36). The storage-side hoppers (371) and (372), the feeding cases (381) and (382), and the air tank (4)
21) A horizontal rotation fulcrum shaft (128), which is a folding fulcrum of (422), is provided, so that the horizontal rotation fulcrum shaft (128) support structure can be simplified and lightweight and compact by also using the fixed-side air tank (42). It is composed. Further, flanges (146) and (146) are integrally fixed to both ends of the fixed-side air tank (42), and flanges (147) and (147) are integrally fixed to the storage-side air tanks (421) and (422). (1
43), each flange (146) (14)
7) Tighten and fix each flange (146) (147)
The storage side air tanks (421) and (422) are fixed to both ends of the fixed side air tank (42), and the air leakage prevention packing (148) made of elastic rubber of the storage side air tanks (421) and (422). To a ring-shaped ridge (14
9) is formed, and the ridges (14) are attached to the elastic rubber air leakage prevention packing (150) of the fixed side air tank (42).
9), the packings (148) and (150) are brought into close contact with each other by crimp deformation of the ridge (149), and the flanges (146) and (147) are brought into direct contact with each other and fixed. , Storage side air tank (42
1) The storage side air tank (4
21) (422) is prevented from bending downward at the joint with the fixed side air tank (42), and each packing (14) is prevented.
8) (150) The lower portion of the joint is compressed more than necessary and the upper portion is separated from each other. As is apparent from the above description, the flanges (146) and (146) of the fixed-side air tank (42) of the fertilizer application section (36) for supplying the air for transporting fertilizer and the storage-side air tank (4) are provided.
21) The flanges (147) and (147) of (422) are brought into direct contact with each other, and the air leakage prevention packing () is provided at the joint between the fixed side air tank (42) and the storage side air tanks (421) and (422). 148) It is configured to prevent uneven deformation of (150). Further, the flange (146) is integrally fixed to the fixed bracket (125), and the flange (14) is fixed to the movable bracket (126).
7) and the brackets (125) and (126)
And the flanges (146) and (147) are mutually reinforced. FIG. 22 shows a modification of FIG. 21 in which an elastic rubber-made elastic bellows-type connecting hose (151) is connected to a fixed-side air tank (42) and a storage-side air tank (421) (422). To hose band (152)
(152), and the storage side air tank (42
1) (422) is connected to the fixed-side air tank (42) via the joint hose (151), and the packings (148) and (150) shown in FIG. 21 are omitted. Air tank (42) (421)
(422) connected by a connecting hose (151),
The configuration is such that the reliability of preventing air leakage during work is improved, and that rainwater or dust can be prevented from entering the air tanks (42) (421) (422) during storage. As is apparent from the above embodiments, the present invention provides a plurality of sets of hoppers (37) (371) (372) and a plurality of feeding cases (38) (381) (382) in the left-right direction. The fertilizer application section (36) to be installed on the traveling vehicle (1) ,
The fertilizer application part (36) is fixed at the center fixing part (37) (38).
(42) and storage sections (371) (372) (3
81) (382) (421) (422), and the left and right storage sections (371) (372) (381)
(382) The (421) and (422) are fixed to the traveling vehicle (1) body at the storage position, and the fertilizer application section (36) is moved in the left-right width direction.
The storage portion (371) (37) is attached to the extending fixed portion (42).
2) Folding of (381) (382) (421) (422)
In the rice transplanter provided with the fulcrum (128),
2) Fix the fixing bracket (125) integrally to the storage
The movable bracket (126) is attached to the parts (421) and (422).
The fixed holes (12)
7) A folding fulcrum (12) that is rotatably and slidably inserted through
8) is rotatably supported on the movable bracket (126).
The storage portion (421) around the folding fulcrum (128).
(422) is rotated horizontally to guide the slot (127).
Therefore, the storage units (421) and (422) are moved horizontally.
Therefore, the folding fulcrum can be used by also using the fertilizer application member (42).
(128) The support structure can be easily simplified,
It can be easily made compact.
You. [0033]
【図面の簡単な説明】
【図1】全体の側面図。
【図2】同平面図。
【図3】施肥部の平面図。
【図4】同背面図。
【図5】同側面説明図。
【図6】昇降レール部側面説明図。
【図7】肥料繰出ケース部の側面説明図。
【図8】肥料繰出ケース部の平面説明図。
【図9】ベースフレーム部の背面説明図。
【図10】肥料繰出ケース部の背面説明図。
【図11】繰出駆動入力部の同側面説明図。
【図12】肥料繰出ケースの断面側面説明図。
【図13】施肥部右側の平面図。
【図14】施肥部左側の平面図。
【図15】施肥部右側の折畳み説明図。
【図16】施肥部左側の折畳み説明図。
【図17】施肥部右側の拡大平面図。
【図18】施肥部左側の拡大平面図。
【図19】左繰出ケース連結部の背面図。
【図20】左エアタンク連結部の平面図。
【図21】図20の拡大図。
【図22】エアタンク連結部の変形例を示す説明図。
【符号の説明】
(1) 走行車
(36) 施肥部
(37) 固定側施肥ホッパ(固定部)
(371)(372) 収納側施肥ホッパ(収納部)
(38) 固定側繰出ケース(固定部)
(381)(382) 収納側繰出ケース(収納部)
(42) 固定側エアタンク(固定部、施肥部構成部
材)
(421)(422) 収納側エアタンク(収納部)
(124) 補助ステップ(走行車機体)
(128) 水平回動支点軸(折畳み支点)
(146)(147) フランジBRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall side view. FIG. 2 is a plan view of the same. FIG. 3 is a plan view of a fertilizer application unit. FIG. 4 is a rear view of the same. FIG. 5 is an explanatory side view of the same. FIG. 6 is an explanatory side view of a lifting rail unit. FIG. 7 is an explanatory side view of the fertilizer feeding case portion. FIG. 8 is an explanatory plan view of a fertilizer feeding case portion. FIG. 9 is an explanatory rear view of the base frame unit. FIG. 10 is an explanatory rear view of a fertilizer feeding case portion. FIG. 11 is an explanatory side view of the feed drive input unit. FIG. 12 is an explanatory sectional side view of the fertilizer feeding case. FIG. 13 is a plan view of the right side of the fertilizer application section. FIG. 14 is a plan view of the left side of the fertilizer application section. FIG. 15 is an explanatory view of folding on the right side of the fertilizer application section. FIG. 16 is an explanatory view of folding the left side of the fertilizer application section. FIG. 17 is an enlarged plan view of the right side of the fertilizer application section. FIG. 18 is an enlarged plan view of the left side of the fertilizer application section. FIG. 19 is a rear view of a left extension case connecting portion. FIG. 20 is a plan view of a left air tank connecting portion. FIG. 21 is an enlarged view of FIG. 20; FIG. 22 is an explanatory view showing a modification of the air tank connecting portion. [Description of Signs] (1) Traveling vehicle (36) Fertilizer application section (37) Fixed-side fertilizer application hopper (fixed section) (371) (372) Storage-side fertilizer application hopper (storage section) (38) Fixed-side feeding case (fixed section) (381) (382) Storage side feeding case (storage part) (42) Fixed side air tank (fixed part, fertilizer application part member) (421) (422) Storage side air tank (storage part) (124) Auxiliary step (running) Vehicle body) (128) Horizontal rotation fulcrum shaft (folding fulcrum) (146) (147) Flange
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) A01C 11/02 302 A01B 73/06 A01C 15/00 - 23/04 ──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. 7 , DB name) A01C 11/02 302 A01B 73/06 A01C 15/00-23/04
Claims (1)
72)及び繰出ケース(38)(381)(382)を
左右方向に並設させる施肥部(36)を走行車(1)に
装設させ、前記施肥部(36)を中央の固定部(37)
(38)(42)と左右両側の収納部(371)(37
2)(381)(382)(421)(422)によっ
て形成し、左右両側の収納部(371)(372)(3
81)(382)(421)(422)を収納位置で走
行車(1)機体に固定させ、施肥部(36)の左右幅方
向に伸張している固定部(42)に収納部(371)
(372)(381)(382)(421)(422)
の折畳み支点(128)を設ける田植機において、固定
部(42)に固定ブラケット(125)を一体固定さ
せ、収納部(421)(422)に可動ブラケット(1
26)を一体固定させ、固定ブラケット(125)の長
孔(127)に回動及び摺動自在に挿通させる折畳み支
点(128)を可動ブラケット(126)に回転自在に
軸支させ、前記折畳み支点(128)回りに収納部(4
21)(422)を水平回転させかつ長孔(127)の
案内によって収納部(421)(422)を水平移動さ
せることを特徴とする田植機。(57) [Claims 1] A plurality of sets of hoppers (37) (371) (3)
72) and a feeding case (38) (381) (382) in which the fertilizer application part (36) is juxtaposed in the left-right direction is mounted on the traveling vehicle (1), and the fertilizer application part (36) is fixed to a central fixing part ( 37)
(38) (42) and the left and right storage sections (371) (37)
2) Formed by (381), (382), (421), and (422), the storage portions (371), (372), and (3)
81) (382) (421) (422) are fixed to the vehicle (1) body at the storage position, and the width of the fertilizer application part (36)
Storage part (371) in the fixed part (42) extending in the direction
(372) (381) (382) (421) (422)
Fixed in rice transplanter with folding fulcrum (128)
The fixing bracket (125) is integrally fixed to the part (42).
The movable bracket (1) in the storage sections (421) and (422).
26) and the length of the fixing bracket (125)
Folding support that is rotatably and slidably inserted into the hole (127)
Point (128) is rotatable on the movable bracket (126)
The storage part (4) is supported around the folding fulcrum (128).
21) Rotate (422) horizontally and remove the slot (127).
The storage units (421) and (422) are moved horizontally by the guidance.
Rice transplanter for causing.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15338996A JP3521040B2 (en) | 1996-05-23 | 1996-05-23 | Rice transplanter |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15338996A JP3521040B2 (en) | 1996-05-23 | 1996-05-23 | Rice transplanter |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH09308326A JPH09308326A (en) | 1997-12-02 |
| JP3521040B2 true JP3521040B2 (en) | 2004-04-19 |
Family
ID=15561424
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP15338996A Expired - Fee Related JP3521040B2 (en) | 1996-05-23 | 1996-05-23 | Rice transplanter |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3521040B2 (en) |
-
1996
- 1996-05-23 JP JP15338996A patent/JP3521040B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH09308326A (en) | 1997-12-02 |
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