JPH0475520A - Seedling-planting device in rice transplanter - Google Patents

Seedling-planting device in rice transplanter

Info

Publication number
JPH0475520A
JPH0475520A JP28148090A JP28148090A JPH0475520A JP H0475520 A JPH0475520 A JP H0475520A JP 28148090 A JP28148090 A JP 28148090A JP 28148090 A JP28148090 A JP 28148090A JP H0475520 A JPH0475520 A JP H0475520A
Authority
JP
Japan
Prior art keywords
seedling
rotating case
shaft
planetary gear
planting
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.)
Granted
Application number
JP28148090A
Other languages
Japanese (ja)
Other versions
JP2507828B2 (en
Inventor
Hiroshi Ichinose
博司 一ノ瀬
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yanmar Co Ltd
Original Assignee
Yanmar Agricultural Equipment Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Yanmar Agricultural Equipment Co Ltd filed Critical Yanmar Agricultural Equipment Co Ltd
Priority to JP2281480A priority Critical patent/JP2507828B2/en
Publication of JPH0475520A publication Critical patent/JPH0475520A/en
Application granted granted Critical
Publication of JP2507828B2 publication Critical patent/JP2507828B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Transplanting Machines (AREA)

Abstract

PURPOSE:To stabilize planting attitude of seedling by making a seedling-planting body having split claws to swing rotation so as a top end of the split claws to draw a locus of vertically long elliptic closed loop with transmission of unequal speed rotation owing to a gears row installed in a rotating case. CONSTITUTION:In swerving of a stopper arm 25 from a circle chord-like outer peripheral face 26 of a cam 24 according to revolution of a rotating case 11 to an arrow A, a seedling-planting body 20 is reversely rotated around a supporting shaft 14 to reverse direction of the arrow A by a spring 23 and the split claws 19 are risen in separating from a field surface B with moving to reverse direction of advancing direction of a rice transplanter 1, namely so as to separate from seedling after planting of the seedling to the field surface B, then moving locus of a top end of the split claws 19 becomes to vertically long elliptic closed loop curve. The both seedling-planting bodies 20 vertically change attitude in a state of having seedlings in the split claws 19 and advance into the field surface B, then rise with escaping so as to separate from the seedlings after planting, thus planting of seedling to the field surface B can surely be performed in a state of right attitude.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、田植機において、苗載台上の苗マットから苗
を一株つつ分割したのちこれを圃場面に植付けるための
ロータリー式の苗植装置に関するものである。
[Detailed Description of the Invention] [Field of Industrial Application] The present invention uses a rotary type rice transplanter for dividing seedlings one by one from a seedling mat on a seedling platform and then planting the seedlings in a field. The present invention relates to a seedling planting device.

〔従来の技術と発明か解決しようとする課題〕この種の
ロータリー式の苗植装置は、例えば実公昭33−189
22号公報、実公昭47−41635号公報等によって
良く知られており、このロータリー式の苗植装置は、一
つの苗植条に対して複数の苗植体によって苗の植付けを
行うため、最近特に多く使用されている上下揺動式の苗
植装置に比べて振動がなく、高速度で田植え作業ができ
る特徴を有するが、上下揺動式の苗植装置において使用
されている強制植付は機構(苗マットから分割した苗を
押出具にて圃場に押し込むもの)を適用することができ
ないのであった。
[Prior art and the problem to be solved by the invention] This type of rotary seedling planting device is known, for example, from Utility Model Publication No. 33-189.
This rotary-type seedling planting device is well known from publications such as Publication No. 22 and Publication Utility Model Publication No. 47-41635, etc., and has been recently developed because it plants seedlings with multiple seedlings in one seedling planting row. In particular, compared to the commonly used vertically swinging type seedling planting device, there is no vibration and the rice can be planted at high speed. It was not possible to apply a mechanism (one that pushes seedlings separated from a seedling mat into the field using a pusher).

本発明は、この問題を解消することを目的とするもので
ある。
The present invention aims to solve this problem.

〔課題を解決するための手段〕[Means to solve the problem]

この目的を達成するため本発明は、苗載台の近くにおけ
る機体に、動力源からの動力伝達にて回転駆動される回
転ケースをその軸線を略水平にして取り付け、該回転ケ
ース内には、その回転中心位置に前記機体に対して回転
不能で、回転ケースに対して回転自在に構成した太陽歯
車を設ける一方、前記回転ケースには、その回転中心か
ら等しい位置に、回転ケースの軸線と平行に延びる複数
本の遊星歯車軸を回転不能に固着し、該各遊星歯車軸に
は、前記太陽歯車と同歯数で太陽歯車に噛合する遊星歯
車と、これに連結したスリーブ状軸とを回転自在に各々
被嵌し、前記遊星歯車軸及びスリーブ状軸を回転ケース
外に突出して、スリーブ状軸の突出端には、前記苗載台
の方向に延びる分割爪とこの分割爪に沿って上下動する
押出具とを備えた複数の苗植体を各々装着する一方、前
記遊星歯車軸の回転ケースからの突出端には、苗植体の
下降下限近傍で前記押出具を分割爪の先端に向って下降
動するようにしたカムを設ける構成にした。
In order to achieve this object, the present invention attaches a rotating case that is rotationally driven by power transmission from a power source to the machine body near the seedling stand, with its axis substantially horizontal, and inside the rotating case, A sun gear configured to be non-rotatable with respect to the body and rotatable with respect to the rotating case is provided at the rotation center position, and a sun gear is provided on the rotating case at an equal position from the rotation center parallel to the axis of the rotating case. A plurality of planetary gear shafts extending into the sun gear are fixed in a non-rotatable manner, and each planetary gear shaft has a planetary gear having the same number of teeth as the sun gear and meshing with the sun gear, and a sleeve-shaped shaft connected thereto. The planetary gear shaft and the sleeve-like shaft are fitted into each other freely, and protrude outside the rotating case, and the protruding end of the sleeve-like shaft has a split claw extending in the direction of the seedling platform, and a split claw extends upward and downward along the split claw. A plurality of seedling plants each equipped with a movable extrusion tool are attached to the protruding end of the planetary gear shaft from the rotation case, and the extrusion tool is attached to the tip of the split claw near the lower limit of the seedling plant. The configuration includes a cam that moves downward in the opposite direction.

〔実施例〕〔Example〕

以下、本発明の実施例を、歩行型の二条植田植機に適用
した場合の実施例の図面について説明すると、図におい
て1は、前部にエンジン2を備え後部に苗載台3とハン
ドル4とを備えた伝動ケース兼用の機体5の下面に、圃
場面Bを滑走するフロート6を設け、且つ、機体5の左
右両側に車輪7をスイングケース8を介して装着した田
植機を示し、該田植機1の機体5には、前記苗載台3の
前方位置に、エンジン2からの動力にて回転駆動される
爪軸9が略水平方向に軸支され、該爪軸9の左右両端に
は、詳しくは後述するロータリー式の苗植装置10か装
着されている。
Below, we will explain the drawings of the embodiments of the present invention applied to a walk-behind two-row rice transplanter. A rice transplanter is shown in which a float 6 that slides on the field scene B is provided on the lower surface of the machine body 5 which also serves as a transmission case, and wheels 7 are mounted on both left and right sides of the machine body 5 via swing cases 8. In the body 5 of the rice transplanter 1, a claw shaft 9 which is rotatably driven by the power from the engine 2 is pivotally supported in a substantially horizontal direction at a position in front of the seedling stand 3. A rotary-type seedling planting device 10, which will be described in detail later, is installed.

このロータリー式の苗植装置lOは、第3図〜第5図に
示すように、機体5に軸支の爪軸9の端部に被嵌固着し
た小判型の回転ケース11を備え、該回転ケース11は
爪軸9によって田植機lの側面視において矢印A方向に
右回転するもので、この回転ケース11内における爪軸
9上には、太陽歯車12か回転自在に被嵌され、該太陽
歯車12は、機体5に適宜の回転位相調節手段13にて
回転不能に係止されている。
As shown in FIGS. 3 to 5, this rotary-type seedling planting device IO is equipped with an oval-shaped rotating case 11 that is fitted and fixed to the end of a claw shaft 9 that is a pivot support on a machine body 5. The case 11 rotates clockwise in the direction of arrow A when viewed from the side of the rice transplanter 1 by means of a claw shaft 9. A sun gear 12 is rotatably fitted onto the claw shaft 9 in the rotating case 11, and the sun gear 12 The gear 12 is non-rotatably locked to the body 5 by a suitable rotational phase adjusting means 13.

前記回転ケース11の左右両端には、爪軸9がらの距離
か等しい位置に、遊星歯車軸14が爪軸9と平行に軸支
され、この両遊星歯車軸14は回転ケース11に対して
回転不能に固着されると共に、該両遊星歯車軸14上に
は、前記太陽歯車12と同歯数の遊星歯車15が回転自
在に被嵌されている。また、前記回転ケースll内には
、爪軸9と両遊星歯車軸14との中間位置に中間軸16
が軸支され、該雨中間軸16上に、太陽歯車12と遊星
歯車15との両方に噛合する中間歯車17を嵌着して遊
星歯車機構を構成する(この場合、遊星歯車15は太陽
歯車12に直接的に噛合するようにしても良い)。
At both left and right ends of the rotating case 11, a planetary gear shaft 14 is supported parallel to the claw shaft 9 at a position equal to the distance from the claw shaft 9, and both planetary gear shafts 14 rotate with respect to the rotating case 11. A planetary gear 15 having the same number of teeth as the sun gear 12 is rotatably fitted onto both planetary gear shafts 14. Further, in the rotating case ll, an intermediate shaft 16 is provided at an intermediate position between the pawl shaft 9 and both planetary gear shafts 14.
is pivotally supported, and an intermediate gear 17 that meshes with both the sun gear 12 and the planetary gears 15 is fitted onto the intermediate shaft 16 to constitute a planetary gear mechanism (in this case, the planetary gears 15 are the sun gears). 12).

一方、前記回転ケースll内における両遊星歯車軸I4
上には、スリーブ状の軸18を回転自在に被嵌して、該
スリーブ状軸18の一端及び前記遊星歯車軸14をケー
ス11外に突出して、このスリーブ状軸18の突出端に
は、先端に苗の分割爪19を備えた中空状の苗植体2o
を、その分割爪19か苗載台3に向かう姿勢位置にして
各々固着する。
On the other hand, both planetary gear shafts I4 in the rotating case ll
A sleeve-shaped shaft 18 is rotatably fitted onto the top, one end of the sleeve-shaped shaft 18 and the planetary gear shaft 14 protrude outside the case 11, and the protruding end of the sleeve-shaped shaft 18 has a Hollow seedling plant body 2o equipped with a seedling dividing claw 19 at the tip
are fixed in position with their split claws 19 facing toward the seedling platform 3.

そして、前記両遊星歯車軸14における遊星歯車15に
は、スリーブ状軸18に向って突出する爪21を、スリ
ーブ状軸18には遊星歯車15に向って突出する爪22
を各々一体的に設け、該両爪21.22を、遊星歯車1
5が右回転するとき互いに接当し、遊星歯車15が左回
転するとき互いに離れるように構成すると共に、両爪2
1.22間には、当該両爪2I、22を互いに接当する
方向に付勢するリング状ばね体23を設けて、このリン
グ状ばね体23にて遊星歯車15の左回転をスリーブ状
軸18に弾性的に伝達するように構成する。
The planetary gears 15 of both planetary gear shafts 14 have pawls 21 that protrude toward the sleeve-shaped shaft 18 , and the sleeve-shaped shaft 18 has pawls 22 that protrude toward the planetary gears 15 .
are integrally provided, and both pawls 21 and 22 are connected to the planetary gear 1.
When the planetary gears 15 rotate clockwise, they contact each other, and when the planetary gears 15 rotate counterclockwise, they separate from each other, and both claws 2
1. A ring-shaped spring body 23 is provided between the claws 2I and 22 to urge the claws 2I and 22 into contact with each other. 18.

一方、前記各苗植体2oには、その分割爪19と平行に
延びる中空状のガイド軸27が上下動自在に設けられ、
該中空状のガイド軸27の下端には押出具28が、内部
には当該ガイド軸27を下向きに押圧付勢するばね29
が各々設けられている。また、前記各苗植体20内には
、薙刀状のレバー30を配設し、その一端を回転自在に
ビン31枢着する一方、他端32を前記レバー30の上
端に係合して、該レバー30の上下回動により押出具2
8が上下動するように構成し、更に、前記遊星歯車軸1
4を、苗植体20内に挿入し、苗植体20内における遊
星歯車軸14には、カム33を固着し、該カム33の外
周面に前記レバー30の中途部を接当し、且つ、該カム
33の外周面を、前記各苗植体20がこの下降下限の近
傍に来たときのみ、前記レバー30が下向き回動するよ
うな形状に構成して成るものである。
On the other hand, each seedling plant 2o is provided with a hollow guide shaft 27 that extends parallel to the dividing claws 19 and is movable up and down.
A pushing tool 28 is provided at the lower end of the hollow guide shaft 27, and a spring 29 is provided inside to press the guide shaft 27 downward.
are provided for each. Further, a naginata-shaped lever 30 is disposed inside each seedling plant 20, one end of which is rotatably pivoted to a bin 31, and the other end 32 is engaged with the upper end of the lever 30, By moving the lever 30 up and down, the pushing tool 2
8 is configured to move up and down, and further, the planetary gear shaft 1
4 is inserted into the seedling plant 20, a cam 33 is fixed to the planetary gear shaft 14 in the seedling plant 20, and the middle part of the lever 30 is brought into contact with the outer peripheral surface of the cam 33. The outer circumferential surface of the cam 33 is configured in such a shape that the lever 30 rotates downward only when each seedling plant 20 comes near the lower limit.

なお、回転ケースll内における雨中間軸16には、扇
型のカム24を各々固着する一方、回転ケースll内に
おける両スリーブ状軸18には、ストッパーアーム25
を各々一体的に設け、前記苗植体20か、回転ケース1
1の矢印A方向への回転に伴って前記苗載台3に面する
側において、苗載台3の下端に相当する高さ位置(つま
り、回転ケース11が略水平となる位置)から下降下限
の若干手前の位置(つまり、分割爪19か圃場面Bに所
定の深さまで侵入した位置)まで下降する区間において
のみ、スリーブ状軸18におけるストッパーアーム25
が、中間軸16上のカム24における円弧状外周面26
に接当することにより、前記の区間においてのみスリー
ブ状軸18の左回転が遅れるように構成されている。
Note that a fan-shaped cam 24 is fixed to each of the intermediate shafts 16 in the rotating case 11, and stopper arms 25 are fixed to both sleeve-shaped shafts 18 in the rotating case 11.
are each integrally provided, and either the seedling plant body 20 or the rotating case 1
As the rotary case 1 rotates in the direction of arrow A, the lower limit of descent is reached from a height position corresponding to the lower end of the seedling stand 3 (that is, a position where the rotating case 11 is approximately horizontal) on the side facing the seedling stand 3. The stopper arm 25 on the sleeve-shaped shaft 18 is moved only in the section where the stopper arm 25 on the sleeve-shaped shaft 18 descends to a position slightly before the splitting claw 19 (that is, the position where the split claw 19 penetrates into the field area B to a predetermined depth).
However, the arcuate outer peripheral surface 26 of the cam 24 on the intermediate shaft 16
By abutting against the sleeve, the counterclockwise rotation of the sleeve-shaped shaft 18 is delayed only in the above-mentioned section.

この構成において、苗植装置10における回転ケース1
1が爪軸9により矢印A方向に公転回転するときに、そ
の両端の遊星歯車軸14に被嵌のスリーブ状軸18に取
付く苗植体20は、爪軸9を中心に公転するが、該苗植
体20が取付くスリーブ状軸18は、遊星歯車15にば
ね体23を介して弾性的に連結され、遊星歯車I5は中
間歯車17を介して太陽歯車12に噛合して、太陽歯車
12との間で遊星歯車機構が構成され、且つ、太陽歯車
I2と遊星歯車15とは同じ歯数に構成されていて、遊
星歯車15及びこれに連結のスリーブ状軸18ひいては
苗植体20は、回転ケース11の矢印A方向への公転回
転に伴って、その公転の回転角度と同じ回転角度だけ矢
印A方向とは逆向きの矢印C方向に遊星歯車軸14を中
心として自転するから、両画植体20は、苗載台3の方
向を向いた状態で矢印A方向に旋回運動することになり
、この旋回運動中において、苗載台3に面する側におい
て上から下に下降するとき、先端の分割爪19にて苗載
台3上の苗マットから苗を一株だけ分割したのち、その
下降下限の近傍において分割爪19の先端が圃場面B中
に侵入し、その後において圃場面Bより上昇するのであ
る。
In this configuration, the rotating case 1 in the seedling planting device 10
1 revolves around the claw shaft 9 in the direction of arrow A, the seedling plant 20 attached to the sleeve-shaped shaft 18 fitted on the planetary gear shaft 14 at both ends revolves around the claw shaft 9. The sleeve-shaped shaft 18 to which the seedling plant 20 is attached is elastically connected to the planetary gear 15 via a spring body 23, and the planetary gear I5 meshes with the sun gear 12 via the intermediate gear 17 to form a sun gear. A planetary gear mechanism is constructed between the sun gear I2 and the planetary gear 15, and the sun gear I2 and the planetary gear 15 have the same number of teeth. , as the rotating case 11 revolves in the direction of the arrow A, it rotates about the planetary gear shaft 14 in the direction of the arrow C, which is opposite to the direction of the arrow A, by the same rotation angle as the rotation angle of the revolution. The plant 20 rotates in the direction of arrow A while facing the direction of the seedling table 3, and during this turning movement, when it descends from top to bottom on the side facing the seedling table 3. After dividing only one seedling from the seedling mat on the seedling platform 3 with the dividing claw 19 at the tip, the tip of the dividing claw 19 enters into the field scene B near the lower limit, and then the field scene It rises from B.

そして、前記回転ケース11の矢印A方向への公転中に
各苗植体20は、遊星歯車軸14に対して矢印C方向に
自転することにより、各苗植体20において遊星歯車軸
14上のカム33に接当スるレバー33は、苗植体20
がその分割爪19の先端が圃場面B中に侵入する下降下
限に来たとき、前記カム33の形状に基ついて下向き方
向に回動するから、この回動にてガイド軸27下端の押
出具28が、第8図に二点鎖線で示すように、分割爪1
9の先端に向って下降して、苗を圃場面B中に押し込む
ようにして植付けを行い、この押し込み植付けか終わる
と、分割爪19が圃場面Bから抜けると略同時に、押出
具28は分割爪19の先端から後退した元の位置(第8
図に実線で示す位置)に復帰するのである。
During the revolution of the rotating case 11 in the direction of the arrow A, each seedling plant 20 rotates in the direction of the arrow C with respect to the planetary gear shaft 14, so that each seedling plant 20 is placed on the planetary gear shaft 14. The lever 33 that comes into contact with the cam 33 is connected to the seedling plant 20.
When the tip of the split claw 19 reaches the lower limit where it enters into the field area B, it rotates downward based on the shape of the cam 33, and this rotation causes the extrusion tool at the lower end of the guide shaft 27 to 28 is the split claw 1 as shown by the two-dot chain line in FIG.
The pushing tool 28 descends toward the tip of the seedling 9 and pushes the seedling into the field scene B to plant the seedling. When this pushing-in planting is completed, the pushing tool 28 separates at approximately the same time as the dividing claw 19 comes out of the field scene B. The original position (8th position) retreated from the tip of the claw 19
It returns to the position shown by the solid line in the figure.

なお、前記実施例のように、スリーブ状軸18にストッ
パーアーム25を、中間軸17にカム24を設けておけ
ば、回転ケース11が略水平状態になったとき、苗載台
3に面する側の苗植体20では、そのスリーブ状軸18
のストッパーアーム25が第5図に示すように、中間軸
16上のカム24における円弧状外周面26に接当して
、この時点から苗植体20の矢印C方向への自転が停止
することにより、苗植体20の矢印C方向への自転が、
回転ケース11の矢印A方向への公転に対して遅れるか
ら(但し、遊星歯車15は矢印C方向に自転して、爪2
1と22とはばね体23に抗して離れ、ばね体23には
弾性力が蓄えられる)、苗植体20は、回転ケース11
の矢印A方向への公転に伴って、その分割爪19が圃場
面Bに対して略垂直状となるように姿勢変換されて圃場
面Bに侵入し、そして、回転ケース11の矢印A方向へ
の公転に伴いストッパーアーム25がカム24における
円弧状外周面26外れると、苗植体20はばね体23の
弾性力によって矢印C方向に遊星歯車軸14を中心に戻
し回転され、この戻し回転によって分割爪19は、圃場
面Bへの苗の植付は後において田植機1の進行方向とは
逆方向つまり植付は後の苗から離れるように動きつつ圃
場面Bから抜けて上昇し、やがて苗植体20が元の姿勢
に戻るから、このときの分割爪19先端の運動軌、跡は
、第7図に二点鎖線で示すように縦に細長の閉ループ曲
線りとなり、前記特公昭49−27762号公報の上下
揺動式苗植装置の場合と同じ形状の閉ループ曲線が得ら
れることになる。
In addition, if the sleeve-shaped shaft 18 is provided with the stopper arm 25 and the intermediate shaft 17 is provided with the cam 24 as in the above embodiment, when the rotating case 11 is in a substantially horizontal state, it will face the seedling platform 3. In the side seedling plant 20, its sleeve-shaped shaft 18
As shown in FIG. 5, the stopper arm 25 contacts the arcuate outer peripheral surface 26 of the cam 24 on the intermediate shaft 16, and from this point on, the rotation of the seedling plant 20 in the direction of arrow C is stopped. Therefore, the rotation of the seedling plant 20 in the direction of arrow C is
This is because the revolution of the rotating case 11 in the direction of arrow A is delayed (however, the planetary gear 15 rotates in the direction of arrow C, and the pawl 2
1 and 22 are separated against the spring body 23, and elastic force is stored in the spring body 23), and the seedling plant body 20 is moved away from the rotating case 11.
As the rotating case 11 revolves in the direction of the arrow A, its attitude is changed so that the dividing claw 19 is approximately perpendicular to the field scene B, enters the field scene B, and then moves in the direction of the arrow A of the rotating case 11. When the stopper arm 25 comes off the arcuate outer circumferential surface 26 of the cam 24 as The splitting claws 19 move in the opposite direction to the direction of movement of the rice transplanter 1 when planting seedlings in the field scene B, that is, when planting, they move away from the later seedlings and move up from the field scene B, and eventually move up. Since the seedling plant body 20 returns to its original position, the movement trajectory and trace of the tip of the dividing claw 19 at this time becomes a vertically elongated closed loop curve as shown by the two-dot chain line in FIG. A closed loop curve having the same shape as that of the vertically swinging seedling planting device disclosed in Japanese Patent No. 27762 can be obtained.

この場合、中間軸16のカム24と、スリーブ状軸18
のストッパーアーム25とて、苗植体20の遊星歯車1
5による自転を、回転ケース11の公転に対して遅らせ
る方式に変えて、第8図及び第9図に示すように、中間
軸16上には、円周の一部に円弧状外周面26aと欠歯
部26bとを有するカム歯車24aを固着する一方、ス
リーブ状軸18上には、円周の一部の歯を切欠いた欠歯
In this case, the cam 24 of the intermediate shaft 16 and the sleeve-shaped shaft 18
The stopper arm 25 and the planetary gear 1 of the seedling plant 20
5 is changed to a system that delays the rotation relative to the revolution of the rotating case 11, and as shown in FIGS. A cam gear 24a having a toothless portion 26b is fixed thereto, while a toothless portion 26b is provided on the sleeve-shaped shaft 18 by cutting out a part of the teeth on the circumference.

型ストッパー歯車25aを設け、これらによって、前記
と同様の作用を行うようにしても良いのである。
A mold stopper gear 25a may also be provided to perform the same function as described above.

また、本発明は、一つの回転ケース11に二つの苗植体
20を装着したものに限らず、三辺上の苗植体を装着し
た場合にも適用できることは勿論である。
Moreover, the present invention is not limited to the case where two seedling plants 20 are attached to one rotary case 11, but can of course be applied to the case where seedling plants on three sides are attached.

〔発明の作用・効果〕[Action/effect of the invention]

以上の通り本発明によれば、ロータリー式の苗植装置に
おける複数の各苗植体を、遊星歯車機構にて強制植付は
式にすることが至極簡単にできるのであり、しかも、各
苗植体は遊星歯車軸とこれに被嵌するスリーブ状の軸と
によって支持されるから、苗植体の取り付けが極めて強
固にてきると共に、泥水の侵入を防止することか簡単に
できて、その耐久性を向上できる効果を有する。
As described above, according to the present invention, it is extremely easy to forcefully plant a plurality of seedlings in a rotary seedling planting device using a planetary gear mechanism, and each seedling is Since the body is supported by a planetary gear shaft and a sleeve-shaped shaft that fits over the planetary gear shaft, the attachment of the seedling plant is extremely strong, and it is easy to prevent muddy water from entering, increasing its durability. It has the effect of improving sex.

【図面の簡単な説明】[Brief explanation of the drawing]

図面は本発明の実施例を示し、第1図は田植機の側面図
、第2図は田植機の平面図、第3図は苗植装置の断面図
、第4図は第3図のIV−IV視断面図、第5図は第3
図のV−V視断面図、第6図は第5図の作用状態を示す
図、第7図は苗植体の運動軌跡を示す図、第8図は第3
図の■−■視拡大断面図、第9図は第8図のIX−IX
視断面図、第10図は苗植装置の別の実施例を示す図、
第11図は第1O図の作用状態を示す図である。 l・・・・田植機、9・・・・爪軸、IO・・・・苗植
装置、11・・・・回転ケース、12・・・・太陽歯車
、I4・・・・遊星歯車軸、15・・・・遊星歯車、1
6・・・・中間軸、17・・・・中間歯車、18・・−
・スリーブ状軸、19・・・・分割爪、20・・・・苗
植体、21.22・・・・爪、23・・・・ばね体、2
4・−・・カム、25・・・・ストッパーアーム、24
a・・・・カム歯車、25a・・ストッパー歯車、27
 ・・・カイト軸、28・・押出具、29・・・・ばね
、30・・・レバー 33・・・・カム。
The drawings show an embodiment of the present invention, and FIG. 1 is a side view of a rice transplanter, FIG. 2 is a plan view of the rice transplanter, FIG. 3 is a cross-sectional view of the seedling transplanting device, and FIG. 4 is an IV of FIG. 3. -IV sectional view, Figure 5 is the 3rd
6 is a diagram showing the operating state of FIG. 5, FIG. 7 is a diagram showing the movement locus of the seedling plant, and FIG.
■-■ enlarged sectional view of the figure, Figure 9 is IX-IX of Figure 8
A cross-sectional view, FIG. 10 is a diagram showing another embodiment of the seedling planting device,
FIG. 11 is a diagram showing the operating state of FIG. 1O. l...Rice transplanter, 9...Claw shaft, IO...Seedling transplanting device, 11...Rotating case, 12...Sun gear, I4...Planetary gear shaft, 15... Planetary gear, 1
6...Intermediate shaft, 17...Intermediate gear, 18...-
・Sleeve-shaped shaft, 19...divided claw, 20...seedling plant, 21.22...claw, 23...spring body, 2
4...Cam, 25...Stopper arm, 24
a...Cam gear, 25a...Stopper gear, 27
... Kite shaft, 28 ... Pusher, 29 ... Spring, 30 ... Lever 33 ... Cam.

Claims (1)

【特許請求の範囲】[Claims] (1)、苗載台の近くにおける機体に、動力源からの動
力伝達にて回転駆動される回転ケースをその軸線を略水
平にして取り付け、該回転ケース内には、その回転中心
位置に前記機体に対して回転不能で、回転ケースに対し
て回転自在に構成した太陽歯車を設ける一方、前記回転
ケースには、その回転中心から等しい位置に、回転ケー
スの軸線と平行に延びる複数本の遊星歯車軸を回転不能
に固着し、該各遊星歯車軸には、前記太陽歯車と同歯数
で太陽歯車に噛合する遊星歯車と、これに連結したスリ
ーブ状軸とを回転自在に各々被嵌し、前記遊星歯車軸及
びスリーブ状軸を回転ケース外に突出して、スリーブ状
軸の突出端には、前記苗載台の方向に延びる分割爪とこ
の分割爪に沿って上下動する押出具とを備えた複数の苗
植体を各々装着する一方、前記遊星歯車軸の回転ケース
からの突出端には、苗植体の下降下限近傍で前記押出具
を分割爪の先端に向って下降動するようにしたカムを設
けて成る田植機における苗植装置。
(1) A rotating case, which is rotationally driven by power transmission from a power source, is attached to the machine body near the seedling stand with its axis substantially horizontal, and inside the rotating case, the center of rotation is located at the center of rotation. A sun gear configured to be non-rotatable with respect to the aircraft body and rotatable with respect to the rotating case is provided, while a plurality of planets extending parallel to the axis of the rotating case are provided at equal positions from the rotation center of the rotating case. A gear shaft is fixed in a non-rotatable manner, and a planetary gear having the same number of teeth as the sun gear and meshing with the sun gear, and a sleeve-shaped shaft connected to the planetary gear are rotatably fitted onto each of the planetary gear shafts. , the planetary gear shaft and the sleeve-shaped shaft protrude outside the rotating case, and the protruding end of the sleeve-shaped shaft is provided with a split claw extending in the direction of the seedling stand and a pushing tool that moves up and down along the split claw. While attaching a plurality of seedling plants equipped with the same, to the protruding end of the planetary gear shaft from the rotating case, the extruder is moved downwardly toward the tip of the split claw near the lower limit of the seedling plant. A seedling planting device in a rice transplanter, which is equipped with a cam that is shaped like this.
JP2281480A 1990-10-18 1990-10-18 Seedling plant in rice transplanter Expired - Lifetime JP2507828B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2281480A JP2507828B2 (en) 1990-10-18 1990-10-18 Seedling plant in rice transplanter

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2281480A JP2507828B2 (en) 1990-10-18 1990-10-18 Seedling plant in rice transplanter

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
JP2249727A Division JP2542459B2 (en) 1990-09-18 1990-09-18 Seedling plant in rice transplanter

Publications (2)

Publication Number Publication Date
JPH0475520A true JPH0475520A (en) 1992-03-10
JP2507828B2 JP2507828B2 (en) 1996-06-19

Family

ID=17639772

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2281480A Expired - Lifetime JP2507828B2 (en) 1990-10-18 1990-10-18 Seedling plant in rice transplanter

Country Status (1)

Country Link
JP (1) JP2507828B2 (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4917807A (en) * 1972-06-09 1974-02-16
JPS4917806A (en) * 1972-04-07 1974-02-16
JPS5149292U (en) * 1974-10-08 1976-04-13

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4917806A (en) * 1972-04-07 1974-02-16
JPS4917807A (en) * 1972-06-09 1974-02-16
JPS5149292U (en) * 1974-10-08 1976-04-13

Also Published As

Publication number Publication date
JP2507828B2 (en) 1996-06-19

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